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) 2001, 2010, Oracle and/or its affiliates. All rights reserved. 23 */ 24 /* 25 * Copyright 2014 Nexenta Systems, Inc. All rights reserved. 26 * Copyright (c) 2016 by Delphix. All rights reserved. 27 */ 28 29 /* 30 * Multiplexed I/O SCSI vHCI implementation 31 */ 32 33 #include <sys/conf.h> 34 #include <sys/file.h> 35 #include <sys/ddi.h> 36 #include <sys/sunddi.h> 37 #include <sys/scsi/scsi.h> 38 #include <sys/scsi/impl/scsi_reset_notify.h> 39 #include <sys/scsi/impl/services.h> 40 #include <sys/sunmdi.h> 41 #include <sys/mdi_impldefs.h> 42 #include <sys/scsi/adapters/scsi_vhci.h> 43 #include <sys/disp.h> 44 #include <sys/byteorder.h> 45 46 extern uintptr_t scsi_callback_id; 47 extern ddi_dma_attr_t scsi_alloc_attr; 48 49 #ifdef DEBUG 50 int vhci_debug = VHCI_DEBUG_DEFAULT_VAL; 51 #endif 52 53 /* retry for the vhci_do_prout command when a not ready is returned */ 54 int vhci_prout_not_ready_retry = 180; 55 56 /* 57 * These values are defined to support the internal retry of 58 * SCSI packets for better sense code handling. 59 */ 60 #define VHCI_CMD_CMPLT 0 61 #define VHCI_CMD_RETRY 1 62 #define VHCI_CMD_ERROR -1 63 64 #define PROPFLAGS (DDI_PROP_DONTPASS | DDI_PROP_NOTPROM) 65 #define VHCI_SCSI_PERR 0x47 66 #define VHCI_PGR_ILLEGALOP -2 67 #define VHCI_NUM_UPDATE_TASKQ 8 68 /* changed to 132 to accomodate HDS */ 69 70 /* 71 * Version Macros 72 */ 73 #define VHCI_NAME_VERSION "SCSI VHCI Driver" 74 char vhci_version_name[] = VHCI_NAME_VERSION; 75 76 int vhci_first_time = 0; 77 clock_t vhci_to_ticks = 0; 78 int vhci_init_wait_timeout = VHCI_INIT_WAIT_TIMEOUT; 79 kcondvar_t vhci_cv; 80 kmutex_t vhci_global_mutex; 81 void *vhci_softstate = NULL; /* for soft state */ 82 83 /* 84 * Flag to delay the retry of the reserve command 85 */ 86 int vhci_reserve_delay = 100000; 87 static int vhci_path_quiesce_timeout = 60; 88 static uchar_t zero_key[MHIOC_RESV_KEY_SIZE]; 89 90 /* uscsi delay for a TRAN_BUSY */ 91 static int vhci_uscsi_delay = 100000; 92 static int vhci_uscsi_retry_count = 180; 93 /* uscsi_restart_sense timeout id in case it needs to get canceled */ 94 static timeout_id_t vhci_restart_timeid = 0; 95 96 static int vhci_bus_config_debug = 0; 97 98 /* 99 * Bidirectional map of 'target-port' to port id <pid> for support of 100 * iostat(8) '-Xx' and '-Yx' output. 101 */ 102 static kmutex_t vhci_targetmap_mutex; 103 static uint_t vhci_targetmap_pid = 1; 104 static mod_hash_t *vhci_targetmap_bypid; /* <pid> -> 'target-port' */ 105 static mod_hash_t *vhci_targetmap_byport; /* 'target-port' -> <pid> */ 106 107 /* 108 * functions exported by scsi_vhci struct cb_ops 109 */ 110 static int vhci_open(dev_t *, int, int, cred_t *); 111 static int vhci_close(dev_t, int, int, cred_t *); 112 static int vhci_ioctl(dev_t, int, intptr_t, int, cred_t *, int *); 113 114 /* 115 * functions exported by scsi_vhci struct dev_ops 116 */ 117 static int vhci_getinfo(dev_info_t *, ddi_info_cmd_t, void *, void **); 118 static int vhci_attach(dev_info_t *, ddi_attach_cmd_t); 119 static int vhci_detach(dev_info_t *, ddi_detach_cmd_t); 120 121 /* 122 * functions exported by scsi_vhci scsi_hba_tran_t transport table 123 */ 124 static int vhci_scsi_tgt_init(dev_info_t *, dev_info_t *, 125 scsi_hba_tran_t *, struct scsi_device *); 126 static void vhci_scsi_tgt_free(dev_info_t *, dev_info_t *, scsi_hba_tran_t *, 127 struct scsi_device *); 128 static int vhci_pgr_register_start(scsi_vhci_lun_t *, struct scsi_pkt *); 129 static int vhci_scsi_start(struct scsi_address *, struct scsi_pkt *); 130 static int vhci_scsi_abort(struct scsi_address *, struct scsi_pkt *); 131 static int vhci_scsi_reset(struct scsi_address *, int); 132 static int vhci_scsi_reset_target(struct scsi_address *, int level, 133 uint8_t select_path); 134 static int vhci_scsi_reset_bus(struct scsi_address *); 135 static int vhci_scsi_getcap(struct scsi_address *, char *, int); 136 static int vhci_scsi_setcap(struct scsi_address *, char *, int, int); 137 static int vhci_commoncap(struct scsi_address *, char *, int, int, int); 138 static int vhci_pHCI_cap(struct scsi_address *ap, char *cap, int val, int whom, 139 mdi_pathinfo_t *pip); 140 static struct scsi_pkt *vhci_scsi_init_pkt(struct scsi_address *, 141 struct scsi_pkt *, struct buf *, int, int, int, int, int (*)(), caddr_t); 142 static void vhci_scsi_destroy_pkt(struct scsi_address *, struct scsi_pkt *); 143 static void vhci_scsi_dmafree(struct scsi_address *, struct scsi_pkt *); 144 static void vhci_scsi_sync_pkt(struct scsi_address *, struct scsi_pkt *); 145 static int vhci_scsi_reset_notify(struct scsi_address *, int, void (*)(caddr_t), 146 caddr_t); 147 static int vhci_scsi_get_bus_addr(struct scsi_device *, char *, int); 148 static int vhci_scsi_get_name(struct scsi_device *, char *, int); 149 static int vhci_scsi_bus_power(dev_info_t *, void *, pm_bus_power_op_t, 150 void *, void *); 151 static int vhci_scsi_bus_config(dev_info_t *, uint_t, ddi_bus_config_op_t, 152 void *, dev_info_t **); 153 static int vhci_scsi_bus_unconfig(dev_info_t *, uint_t, ddi_bus_config_op_t, 154 void *); 155 static struct scsi_failover_ops *vhci_dev_fo(dev_info_t *, struct scsi_device *, 156 void **, char **); 157 158 /* 159 * functions registered with the mpxio framework via mdi_vhci_ops_t 160 */ 161 static int vhci_pathinfo_init(dev_info_t *, mdi_pathinfo_t *, int); 162 static int vhci_pathinfo_uninit(dev_info_t *, mdi_pathinfo_t *, int); 163 static int vhci_pathinfo_state_change(dev_info_t *, mdi_pathinfo_t *, 164 mdi_pathinfo_state_t, uint32_t, int); 165 static int vhci_pathinfo_online(dev_info_t *, mdi_pathinfo_t *, int); 166 static int vhci_pathinfo_offline(dev_info_t *, mdi_pathinfo_t *, int); 167 static int vhci_failover(dev_info_t *, dev_info_t *, int); 168 static void vhci_client_attached(dev_info_t *); 169 static int vhci_is_dev_supported(dev_info_t *, dev_info_t *, void *); 170 171 static int vhci_ctl(dev_t, int, intptr_t, int, cred_t *, int *); 172 static int vhci_devctl(dev_t, int, intptr_t, int, cred_t *, int *); 173 static int vhci_ioc_get_phci_path(sv_iocdata_t *, caddr_t, int, caddr_t); 174 static int vhci_ioc_get_client_path(sv_iocdata_t *, caddr_t, int, caddr_t); 175 static int vhci_ioc_get_paddr(sv_iocdata_t *, caddr_t, int, caddr_t); 176 static int vhci_ioc_send_client_path(caddr_t, sv_iocdata_t *, int, caddr_t); 177 static void vhci_ioc_devi_to_path(dev_info_t *, caddr_t); 178 static int vhci_get_phci_path_list(dev_info_t *, sv_path_info_t *, uint_t); 179 static int vhci_get_client_path_list(dev_info_t *, sv_path_info_t *, uint_t); 180 static int vhci_get_iocdata(const void *, sv_iocdata_t *, int, caddr_t); 181 static int vhci_get_iocswitchdata(const void *, sv_switch_to_cntlr_iocdata_t *, 182 int, caddr_t); 183 static int vhci_ioc_alloc_pathinfo(sv_path_info_t **, sv_path_info_t **, 184 uint_t, sv_iocdata_t *, int, caddr_t); 185 static void vhci_ioc_free_pathinfo(sv_path_info_t *, sv_path_info_t *, uint_t); 186 static int vhci_ioc_send_pathinfo(sv_path_info_t *, sv_path_info_t *, uint_t, 187 sv_iocdata_t *, int, caddr_t); 188 static int vhci_handle_ext_fo(struct scsi_pkt *, int); 189 static int vhci_efo_watch_cb(caddr_t, struct scsi_watch_result *); 190 static int vhci_quiesce_lun(struct scsi_vhci_lun *); 191 static int vhci_pgr_validate_and_register(scsi_vhci_priv_t *); 192 static void vhci_dispatch_scsi_start(void *); 193 static void vhci_efo_done(void *); 194 static void vhci_initiate_auto_failback(void *); 195 static void vhci_update_pHCI_pkt(struct vhci_pkt *, struct scsi_pkt *); 196 static int vhci_update_pathinfo(struct scsi_device *, mdi_pathinfo_t *, 197 struct scsi_failover_ops *, scsi_vhci_lun_t *, struct scsi_vhci *); 198 static void vhci_kstat_create_pathinfo(mdi_pathinfo_t *); 199 static int vhci_quiesce_paths(dev_info_t *, dev_info_t *, 200 scsi_vhci_lun_t *, char *, char *); 201 202 static char *vhci_devnm_to_guid(char *); 203 static int vhci_bind_transport(struct scsi_address *, struct vhci_pkt *, 204 int, int (*func)(caddr_t)); 205 static void vhci_intr(struct scsi_pkt *); 206 static int vhci_do_prout(scsi_vhci_priv_t *); 207 static void vhci_run_cmd(void *); 208 static int vhci_do_prin(struct vhci_pkt **); 209 static struct scsi_pkt *vhci_create_retry_pkt(struct vhci_pkt *); 210 static struct vhci_pkt *vhci_sync_retry_pkt(struct vhci_pkt *); 211 static struct scsi_vhci_lun *vhci_lun_lookup(dev_info_t *); 212 static struct scsi_vhci_lun *vhci_lun_lookup_alloc(dev_info_t *, char *, int *); 213 static void vhci_lun_free(struct scsi_vhci_lun *dvlp, struct scsi_device *sd); 214 static int vhci_recovery_reset(scsi_vhci_lun_t *, struct scsi_address *, 215 uint8_t, uint8_t); 216 void vhci_update_pathstates(void *); 217 218 #ifdef DEBUG 219 static void vhci_print_prin_keys(vhci_prin_readkeys_t *, int); 220 static void vhci_print_cdb(dev_info_t *dip, uint_t level, 221 char *title, uchar_t *cdb); 222 static void vhci_clean_print(dev_info_t *dev, uint_t level, 223 char *title, uchar_t *data, int len); 224 #endif 225 static void vhci_print_prout_keys(scsi_vhci_lun_t *, char *); 226 static void vhci_uscsi_iodone(struct scsi_pkt *pkt); 227 static void vhci_invalidate_mpapi_lu(struct scsi_vhci *, scsi_vhci_lun_t *); 228 229 /* 230 * MP-API related functions 231 */ 232 extern int vhci_mpapi_init(struct scsi_vhci *); 233 extern void vhci_mpapi_add_dev_prod(struct scsi_vhci *, char *); 234 extern int vhci_mpapi_ctl(dev_t, int, intptr_t, int, cred_t *, int *); 235 extern void vhci_update_mpapi_data(struct scsi_vhci *, 236 scsi_vhci_lun_t *, mdi_pathinfo_t *); 237 extern void* vhci_get_mpapi_item(struct scsi_vhci *, mpapi_list_header_t *, 238 uint8_t, void*); 239 extern void vhci_mpapi_set_path_state(dev_info_t *, mdi_pathinfo_t *, int); 240 extern int vhci_mpapi_update_tpg_acc_state_for_lu(struct scsi_vhci *, 241 scsi_vhci_lun_t *); 242 243 #define VHCI_DMA_MAX_XFER_CAP INT_MAX 244 245 #define VHCI_MAX_PGR_RETRIES 3 246 247 /* 248 * Macros for the device-type mpxio options 249 */ 250 #define LOAD_BALANCE_OPTIONS "load-balance-options" 251 #define LOGICAL_BLOCK_REGION_SIZE "region-size" 252 #define MPXIO_OPTIONS_LIST "device-type-mpxio-options-list" 253 #define DEVICE_TYPE_STR "device-type" 254 #define isdigit(ch) ((ch) >= '0' && (ch) <= '9') 255 256 static struct cb_ops vhci_cb_ops = { 257 vhci_open, /* open */ 258 vhci_close, /* close */ 259 nodev, /* strategy */ 260 nodev, /* print */ 261 nodev, /* dump */ 262 nodev, /* read */ 263 nodev, /* write */ 264 vhci_ioctl, /* ioctl */ 265 nodev, /* devmap */ 266 nodev, /* mmap */ 267 nodev, /* segmap */ 268 nochpoll, /* chpoll */ 269 ddi_prop_op, /* cb_prop_op */ 270 0, /* streamtab */ 271 D_NEW | D_MP, /* cb_flag */ 272 CB_REV, /* rev */ 273 nodev, /* aread */ 274 nodev /* awrite */ 275 }; 276 277 static struct dev_ops vhci_ops = { 278 DEVO_REV, 279 0, 280 vhci_getinfo, 281 nulldev, /* identify */ 282 nulldev, /* probe */ 283 vhci_attach, /* attach and detach are mandatory */ 284 vhci_detach, 285 nodev, /* reset */ 286 &vhci_cb_ops, /* cb_ops */ 287 NULL, /* bus_ops */ 288 NULL, /* power */ 289 ddi_quiesce_not_needed, /* quiesce */ 290 }; 291 292 extern struct mod_ops mod_driverops; 293 294 static struct modldrv modldrv = { 295 &mod_driverops, 296 vhci_version_name, /* module name */ 297 &vhci_ops 298 }; 299 300 static struct modlinkage modlinkage = { 301 MODREV_1, 302 &modldrv, 303 NULL 304 }; 305 306 static mdi_vhci_ops_t vhci_opinfo = { 307 MDI_VHCI_OPS_REV, 308 vhci_pathinfo_init, /* Pathinfo node init callback */ 309 vhci_pathinfo_uninit, /* Pathinfo uninit callback */ 310 vhci_pathinfo_state_change, /* Pathinfo node state change */ 311 vhci_failover, /* failover callback */ 312 vhci_client_attached, /* client attached callback */ 313 vhci_is_dev_supported /* is device supported by mdi */ 314 }; 315 316 /* 317 * The scsi_failover table defines an ordered set of 'fops' modules supported 318 * by scsi_vhci. Currently, initialize this table from the 'ddi-forceload' 319 * property specified in scsi_vhci.conf. 320 */ 321 static struct scsi_failover { 322 ddi_modhandle_t sf_mod; 323 struct scsi_failover_ops *sf_sfo; 324 } *scsi_failover_table; 325 static uint_t scsi_nfailover; 326 327 int 328 _init(void) 329 { 330 int rval; 331 332 /* 333 * Allocate soft state and prepare to do ddi_soft_state_zalloc() 334 * before registering with the transport first. 335 */ 336 if ((rval = ddi_soft_state_init(&vhci_softstate, 337 sizeof (struct scsi_vhci), 1)) != 0) { 338 VHCI_DEBUG(1, (CE_NOTE, NULL, 339 "!_init:soft state init failed\n")); 340 return (rval); 341 } 342 343 if ((rval = scsi_hba_init(&modlinkage)) != 0) { 344 VHCI_DEBUG(1, (CE_NOTE, NULL, 345 "!_init: scsi hba init failed\n")); 346 ddi_soft_state_fini(&vhci_softstate); 347 return (rval); 348 } 349 350 mutex_init(&vhci_global_mutex, NULL, MUTEX_DRIVER, NULL); 351 cv_init(&vhci_cv, NULL, CV_DRIVER, NULL); 352 353 mutex_init(&vhci_targetmap_mutex, NULL, MUTEX_DRIVER, NULL); 354 vhci_targetmap_byport = mod_hash_create_strhash( 355 "vhci_targetmap_byport", 256, mod_hash_null_valdtor); 356 vhci_targetmap_bypid = mod_hash_create_idhash( 357 "vhci_targetmap_bypid", 256, mod_hash_null_valdtor); 358 359 if ((rval = mod_install(&modlinkage)) != 0) { 360 VHCI_DEBUG(1, (CE_NOTE, NULL, "!_init: mod_install failed\n")); 361 if (vhci_targetmap_bypid) 362 mod_hash_destroy_idhash(vhci_targetmap_bypid); 363 if (vhci_targetmap_byport) 364 mod_hash_destroy_strhash(vhci_targetmap_byport); 365 mutex_destroy(&vhci_targetmap_mutex); 366 cv_destroy(&vhci_cv); 367 mutex_destroy(&vhci_global_mutex); 368 scsi_hba_fini(&modlinkage); 369 ddi_soft_state_fini(&vhci_softstate); 370 } 371 return (rval); 372 } 373 374 375 /* 376 * the system is done with us as a driver, so clean up 377 */ 378 int 379 _fini(void) 380 { 381 int rval; 382 383 /* 384 * don't start cleaning up until we know that the module remove 385 * has worked -- if this works, then we know that each instance 386 * has successfully been DDI_DETACHed 387 */ 388 if ((rval = mod_remove(&modlinkage)) != 0) { 389 VHCI_DEBUG(4, (CE_NOTE, NULL, "!_fini: mod_remove failed\n")); 390 return (rval); 391 } 392 393 if (vhci_targetmap_bypid) 394 mod_hash_destroy_idhash(vhci_targetmap_bypid); 395 if (vhci_targetmap_byport) 396 mod_hash_destroy_strhash(vhci_targetmap_byport); 397 mutex_destroy(&vhci_targetmap_mutex); 398 cv_destroy(&vhci_cv); 399 mutex_destroy(&vhci_global_mutex); 400 scsi_hba_fini(&modlinkage); 401 ddi_soft_state_fini(&vhci_softstate); 402 403 return (rval); 404 } 405 406 int 407 _info(struct modinfo *modinfop) 408 { 409 return (mod_info(&modlinkage, modinfop)); 410 } 411 412 /* 413 * Lookup scsi_failover by "short name" of failover module. 414 */ 415 struct scsi_failover_ops * 416 vhci_failover_ops_by_name(char *name) 417 { 418 struct scsi_failover *sf; 419 420 for (sf = scsi_failover_table; sf->sf_mod; sf++) { 421 if (sf->sf_sfo == NULL) 422 continue; 423 if (strcmp(sf->sf_sfo->sfo_name, name) == 0) 424 return (sf->sf_sfo); 425 } 426 return (NULL); 427 } 428 429 /* 430 * Load all scsi_failover_ops 'fops' modules. 431 */ 432 static void 433 vhci_failover_modopen(struct scsi_vhci *vhci) 434 { 435 char **module; 436 int i; 437 struct scsi_failover *sf; 438 char **dt; 439 int e; 440 441 if (scsi_failover_table) 442 return; 443 444 /* Get the list of modules from scsi_vhci.conf */ 445 if (ddi_prop_lookup_string_array(DDI_DEV_T_ANY, 446 vhci->vhci_dip, DDI_PROP_DONTPASS, "ddi-forceload", 447 &module, &scsi_nfailover) != DDI_PROP_SUCCESS) { 448 cmn_err(CE_WARN, "scsi_vhci: " 449 "scsi_vhci.conf is missing 'ddi-forceload'"); 450 return; 451 } 452 if (scsi_nfailover == 0) { 453 cmn_err(CE_WARN, "scsi_vhci: " 454 "scsi_vhci.conf has empty 'ddi-forceload'"); 455 ddi_prop_free(module); 456 return; 457 } 458 459 /* allocate failover table based on number of modules */ 460 scsi_failover_table = (struct scsi_failover *) 461 kmem_zalloc(sizeof (struct scsi_failover) * (scsi_nfailover + 1), 462 KM_SLEEP); 463 464 /* loop over modules specified in scsi_vhci.conf and open each module */ 465 for (i = 0, sf = scsi_failover_table; i < scsi_nfailover; i++) { 466 if (module[i] == NULL) 467 continue; 468 469 sf->sf_mod = ddi_modopen(module[i], KRTLD_MODE_FIRST, &e); 470 if (sf->sf_mod == NULL) { 471 /* 472 * A module returns EEXIST if other software is 473 * supporting the intended function: for example 474 * the scsi_vhci_f_sum_emc module returns EEXIST 475 * from _init if EMC powerpath software is installed. 476 */ 477 if (e != EEXIST) 478 cmn_err(CE_WARN, "scsi_vhci: unable to open " 479 "module '%s', error %d", module[i], e); 480 continue; 481 } 482 sf->sf_sfo = ddi_modsym(sf->sf_mod, 483 "scsi_vhci_failover_ops", &e); 484 if (sf->sf_sfo == NULL) { 485 cmn_err(CE_WARN, "scsi_vhci: " 486 "unable to import 'scsi_failover_ops' from '%s', " 487 "error %d", module[i], e); 488 (void) ddi_modclose(sf->sf_mod); 489 sf->sf_mod = NULL; 490 continue; 491 } 492 493 /* register vid/pid of devices supported with mpapi */ 494 for (dt = sf->sf_sfo->sfo_devices; *dt; dt++) 495 vhci_mpapi_add_dev_prod(vhci, *dt); 496 sf++; 497 } 498 499 /* verify that at least the "well-known" modules were there */ 500 if (vhci_failover_ops_by_name(SFO_NAME_SYM) == NULL) 501 cmn_err(CE_WARN, "scsi_vhci: well-known module \"" 502 SFO_NAME_SYM "\" not defined in scsi_vhci.conf's " 503 "'ddi-forceload'"); 504 if (vhci_failover_ops_by_name(SFO_NAME_TPGS) == NULL) 505 cmn_err(CE_WARN, "scsi_vhci: well-known module \"" 506 SFO_NAME_TPGS "\" not defined in scsi_vhci.conf's " 507 "'ddi-forceload'"); 508 509 /* call sfo_init for modules that need it */ 510 for (sf = scsi_failover_table; sf->sf_mod; sf++) { 511 if (sf->sf_sfo && sf->sf_sfo->sfo_init) 512 sf->sf_sfo->sfo_init(); 513 } 514 515 ddi_prop_free(module); 516 } 517 518 /* 519 * unload all loaded scsi_failover_ops modules 520 */ 521 static void 522 vhci_failover_modclose() 523 { 524 struct scsi_failover *sf; 525 526 for (sf = scsi_failover_table; sf->sf_mod; sf++) { 527 if ((sf->sf_mod == NULL) || (sf->sf_sfo == NULL)) 528 continue; 529 (void) ddi_modclose(sf->sf_mod); 530 sf->sf_mod = NULL; 531 sf->sf_sfo = NULL; 532 } 533 534 if (scsi_failover_table && scsi_nfailover) 535 kmem_free(scsi_failover_table, 536 sizeof (struct scsi_failover) * (scsi_nfailover + 1)); 537 scsi_failover_table = NULL; 538 scsi_nfailover = 0; 539 } 540 541 /* ARGSUSED */ 542 static int 543 vhci_open(dev_t *devp, int flag, int otype, cred_t *credp) 544 { 545 struct scsi_vhci *vhci; 546 547 if (otype != OTYP_CHR) { 548 return (EINVAL); 549 } 550 551 vhci = ddi_get_soft_state(vhci_softstate, MINOR2INST(getminor(*devp))); 552 if (vhci == NULL) { 553 VHCI_DEBUG(1, (CE_NOTE, NULL, "vhci_open: failed ENXIO\n")); 554 return (ENXIO); 555 } 556 557 mutex_enter(&vhci->vhci_mutex); 558 if ((flag & FEXCL) && (vhci->vhci_state & VHCI_STATE_OPEN)) { 559 mutex_exit(&vhci->vhci_mutex); 560 vhci_log(CE_NOTE, vhci->vhci_dip, 561 "!vhci%d: Already open\n", getminor(*devp)); 562 return (EBUSY); 563 } 564 565 vhci->vhci_state |= VHCI_STATE_OPEN; 566 mutex_exit(&vhci->vhci_mutex); 567 return (0); 568 } 569 570 571 /* ARGSUSED */ 572 static int 573 vhci_close(dev_t dev, int flag, int otype, cred_t *credp) 574 { 575 struct scsi_vhci *vhci; 576 577 if (otype != OTYP_CHR) { 578 return (EINVAL); 579 } 580 581 vhci = ddi_get_soft_state(vhci_softstate, MINOR2INST(getminor(dev))); 582 if (vhci == NULL) { 583 VHCI_DEBUG(1, (CE_NOTE, NULL, "vhci_close: failed ENXIO\n")); 584 return (ENXIO); 585 } 586 587 mutex_enter(&vhci->vhci_mutex); 588 vhci->vhci_state &= ~VHCI_STATE_OPEN; 589 mutex_exit(&vhci->vhci_mutex); 590 591 return (0); 592 } 593 594 /* ARGSUSED */ 595 static int 596 vhci_ioctl(dev_t dev, int cmd, intptr_t data, int mode, 597 cred_t *credp, int *rval) 598 { 599 if (IS_DEVCTL(cmd)) { 600 return (vhci_devctl(dev, cmd, data, mode, credp, rval)); 601 } else if (cmd == MP_CMD) { 602 return (vhci_mpapi_ctl(dev, cmd, data, mode, credp, rval)); 603 } else { 604 return (vhci_ctl(dev, cmd, data, mode, credp, rval)); 605 } 606 } 607 608 /* 609 * attach the module 610 */ 611 static int 612 vhci_attach(dev_info_t *dip, ddi_attach_cmd_t cmd) 613 { 614 int rval = DDI_FAILURE; 615 int scsi_hba_attached = 0; 616 int vhci_attached = 0; 617 int mutex_initted = 0; 618 int instance; 619 struct scsi_vhci *vhci; 620 scsi_hba_tran_t *tran; 621 char cache_name_buf[64]; 622 char *data; 623 624 VHCI_DEBUG(4, (CE_NOTE, NULL, "vhci_attach: cmd=0x%x\n", cmd)); 625 626 instance = ddi_get_instance(dip); 627 628 switch (cmd) { 629 case DDI_ATTACH: 630 break; 631 632 case DDI_RESUME: 633 case DDI_PM_RESUME: 634 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_attach: resume not yet" 635 "implemented\n")); 636 return (rval); 637 638 default: 639 VHCI_DEBUG(1, (CE_NOTE, NULL, 640 "!vhci_attach: unknown ddi command\n")); 641 return (rval); 642 } 643 644 /* 645 * Allocate vhci data structure. 646 */ 647 if (ddi_soft_state_zalloc(vhci_softstate, instance) != DDI_SUCCESS) { 648 VHCI_DEBUG(1, (CE_NOTE, dip, "!vhci_attach:" 649 "soft state alloc failed\n")); 650 return (DDI_FAILURE); 651 } 652 653 if ((vhci = ddi_get_soft_state(vhci_softstate, instance)) == NULL) { 654 VHCI_DEBUG(1, (CE_NOTE, dip, "!vhci_attach:" 655 "bad soft state\n")); 656 ddi_soft_state_free(vhci_softstate, instance); 657 return (DDI_FAILURE); 658 } 659 660 /* Allocate packet cache */ 661 (void) snprintf(cache_name_buf, sizeof (cache_name_buf), 662 "vhci%d_cache", instance); 663 664 mutex_init(&vhci->vhci_mutex, NULL, MUTEX_DRIVER, NULL); 665 mutex_initted++; 666 667 /* 668 * Allocate a transport structure 669 */ 670 tran = scsi_hba_tran_alloc(dip, SCSI_HBA_CANSLEEP); 671 ASSERT(tran != NULL); 672 673 vhci->vhci_tran = tran; 674 vhci->vhci_dip = dip; 675 vhci->vhci_instance = instance; 676 677 tran->tran_hba_private = vhci; 678 tran->tran_tgt_init = vhci_scsi_tgt_init; 679 tran->tran_tgt_probe = NULL; 680 tran->tran_tgt_free = vhci_scsi_tgt_free; 681 682 tran->tran_start = vhci_scsi_start; 683 tran->tran_abort = vhci_scsi_abort; 684 tran->tran_reset = vhci_scsi_reset; 685 tran->tran_getcap = vhci_scsi_getcap; 686 tran->tran_setcap = vhci_scsi_setcap; 687 tran->tran_init_pkt = vhci_scsi_init_pkt; 688 tran->tran_destroy_pkt = vhci_scsi_destroy_pkt; 689 tran->tran_dmafree = vhci_scsi_dmafree; 690 tran->tran_sync_pkt = vhci_scsi_sync_pkt; 691 tran->tran_reset_notify = vhci_scsi_reset_notify; 692 693 tran->tran_get_bus_addr = vhci_scsi_get_bus_addr; 694 tran->tran_get_name = vhci_scsi_get_name; 695 tran->tran_bus_reset = NULL; 696 tran->tran_quiesce = NULL; 697 tran->tran_unquiesce = NULL; 698 699 /* 700 * register event notification routines with scsa 701 */ 702 tran->tran_get_eventcookie = NULL; 703 tran->tran_add_eventcall = NULL; 704 tran->tran_remove_eventcall = NULL; 705 tran->tran_post_event = NULL; 706 707 tran->tran_bus_power = vhci_scsi_bus_power; 708 709 tran->tran_bus_config = vhci_scsi_bus_config; 710 tran->tran_bus_unconfig = vhci_scsi_bus_unconfig; 711 712 /* 713 * Attach this instance with the mpxio framework 714 */ 715 if (mdi_vhci_register(MDI_HCI_CLASS_SCSI, dip, &vhci_opinfo, 0) 716 != MDI_SUCCESS) { 717 VHCI_DEBUG(1, (CE_NOTE, dip, "!vhci_attach:" 718 "mdi_vhci_register failed\n")); 719 goto attach_fail; 720 } 721 vhci_attached++; 722 723 /* 724 * Attach this instance of the hba. 725 * 726 * Regarding dma attributes: Since scsi_vhci is a virtual scsi HBA 727 * driver, it has nothing to do with DMA. However, when calling 728 * scsi_hba_attach_setup() we need to pass something valid in the 729 * dma attributes parameter. So we just use scsi_alloc_attr. 730 * SCSA itself seems to care only for dma_attr_minxfer and 731 * dma_attr_burstsizes fields of dma attributes structure. 732 * It expects those fileds to be non-zero. 733 */ 734 if (scsi_hba_attach_setup(dip, &scsi_alloc_attr, tran, 735 SCSI_HBA_ADDR_COMPLEX) != DDI_SUCCESS) { 736 VHCI_DEBUG(1, (CE_NOTE, dip, "!vhci_attach:" 737 "hba attach failed\n")); 738 goto attach_fail; 739 } 740 scsi_hba_attached++; 741 742 if (ddi_create_minor_node(dip, "devctl", S_IFCHR, 743 INST2DEVCTL(instance), DDI_NT_SCSI_NEXUS, 0) != DDI_SUCCESS) { 744 VHCI_DEBUG(1, (CE_NOTE, dip, "!vhci_attach:" 745 " ddi_create_minor_node failed\n")); 746 goto attach_fail; 747 } 748 749 /* 750 * Set pm-want-child-notification property for 751 * power management of the phci and client 752 */ 753 if (ddi_prop_create(DDI_DEV_T_NONE, dip, DDI_PROP_CANSLEEP, 754 "pm-want-child-notification?", NULL, 0) != DDI_PROP_SUCCESS) { 755 cmn_err(CE_WARN, 756 "%s%d fail to create pm-want-child-notification? prop", 757 ddi_driver_name(dip), ddi_get_instance(dip)); 758 goto attach_fail; 759 } 760 761 vhci->vhci_taskq = taskq_create("vhci_taskq", 1, MINCLSYSPRI, 1, 4, 0); 762 vhci->vhci_update_pathstates_taskq = 763 taskq_create("vhci_update_pathstates", VHCI_NUM_UPDATE_TASKQ, 764 MINCLSYSPRI, 1, 4, 0); 765 ASSERT(vhci->vhci_taskq); 766 ASSERT(vhci->vhci_update_pathstates_taskq); 767 768 /* 769 * Set appropriate configuration flags based on options set in 770 * conf file. 771 */ 772 vhci->vhci_conf_flags = 0; 773 if (ddi_prop_lookup_string(DDI_DEV_T_ANY, dip, PROPFLAGS, 774 "auto-failback", &data) == DDI_SUCCESS) { 775 if (strcmp(data, "enable") == 0) 776 vhci->vhci_conf_flags |= VHCI_CONF_FLAGS_AUTO_FAILBACK; 777 ddi_prop_free(data); 778 } 779 780 if (!(vhci->vhci_conf_flags & VHCI_CONF_FLAGS_AUTO_FAILBACK)) 781 vhci_log(CE_NOTE, dip, "!Auto-failback capability " 782 "disabled through scsi_vhci.conf file."); 783 784 /* 785 * Allocate an mpapi private structure 786 */ 787 vhci->mp_priv = kmem_zalloc(sizeof (mpapi_priv_t), KM_SLEEP); 788 if (vhci_mpapi_init(vhci) != 0) { 789 VHCI_DEBUG(1, (CE_WARN, NULL, "!vhci_attach: " 790 "vhci_mpapi_init() failed")); 791 } 792 793 vhci_failover_modopen(vhci); /* load failover modules */ 794 795 ddi_report_dev(dip); 796 return (DDI_SUCCESS); 797 798 attach_fail: 799 if (vhci_attached) 800 (void) mdi_vhci_unregister(dip, 0); 801 802 if (scsi_hba_attached) 803 (void) scsi_hba_detach(dip); 804 805 if (vhci->vhci_tran) 806 scsi_hba_tran_free(vhci->vhci_tran); 807 808 if (mutex_initted) { 809 mutex_destroy(&vhci->vhci_mutex); 810 } 811 812 ddi_soft_state_free(vhci_softstate, instance); 813 return (DDI_FAILURE); 814 } 815 816 817 /*ARGSUSED*/ 818 static int 819 vhci_detach(dev_info_t *dip, ddi_detach_cmd_t cmd) 820 { 821 int instance = ddi_get_instance(dip); 822 scsi_hba_tran_t *tran; 823 struct scsi_vhci *vhci; 824 825 VHCI_DEBUG(4, (CE_NOTE, NULL, "vhci_detach: cmd=0x%x\n", cmd)); 826 827 if ((tran = ddi_get_driver_private(dip)) == NULL) 828 return (DDI_FAILURE); 829 830 vhci = TRAN2HBAPRIVATE(tran); 831 if (!vhci) { 832 return (DDI_FAILURE); 833 } 834 835 switch (cmd) { 836 case DDI_DETACH: 837 break; 838 839 case DDI_SUSPEND: 840 case DDI_PM_SUSPEND: 841 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_detach: suspend/pm not yet" 842 "implemented\n")); 843 return (DDI_FAILURE); 844 845 default: 846 VHCI_DEBUG(1, (CE_NOTE, NULL, 847 "!vhci_detach: unknown ddi command\n")); 848 return (DDI_FAILURE); 849 } 850 851 (void) mdi_vhci_unregister(dip, 0); 852 (void) scsi_hba_detach(dip); 853 scsi_hba_tran_free(tran); 854 855 if (ddi_prop_remove(DDI_DEV_T_NONE, dip, 856 "pm-want-child-notification?") != DDI_PROP_SUCCESS) { 857 cmn_err(CE_WARN, 858 "%s%d unable to remove prop pm-want_child_notification?", 859 ddi_driver_name(dip), ddi_get_instance(dip)); 860 } 861 if (vhci_restart_timeid != 0) { 862 (void) untimeout(vhci_restart_timeid); 863 } 864 vhci_restart_timeid = 0; 865 866 mutex_destroy(&vhci->vhci_mutex); 867 vhci->vhci_dip = NULL; 868 vhci->vhci_tran = NULL; 869 taskq_destroy(vhci->vhci_taskq); 870 taskq_destroy(vhci->vhci_update_pathstates_taskq); 871 ddi_remove_minor_node(dip, NULL); 872 ddi_soft_state_free(vhci_softstate, instance); 873 874 vhci_failover_modclose(); /* unload failover modules */ 875 return (DDI_SUCCESS); 876 } 877 878 /* 879 * vhci_getinfo() 880 * Given the device number, return the devinfo pointer or the 881 * instance number. 882 * Note: always succeed DDI_INFO_DEVT2INSTANCE, even before attach. 883 */ 884 885 /*ARGSUSED*/ 886 static int 887 vhci_getinfo(dev_info_t *dip, ddi_info_cmd_t cmd, void *arg, void **result) 888 { 889 struct scsi_vhci *vhcip; 890 int instance = MINOR2INST(getminor((dev_t)arg)); 891 892 switch (cmd) { 893 case DDI_INFO_DEVT2DEVINFO: 894 vhcip = ddi_get_soft_state(vhci_softstate, instance); 895 if (vhcip != NULL) 896 *result = vhcip->vhci_dip; 897 else { 898 *result = NULL; 899 return (DDI_FAILURE); 900 } 901 break; 902 903 case DDI_INFO_DEVT2INSTANCE: 904 *result = (void *)(uintptr_t)instance; 905 break; 906 907 default: 908 return (DDI_FAILURE); 909 } 910 911 return (DDI_SUCCESS); 912 } 913 914 /*ARGSUSED*/ 915 static int 916 vhci_scsi_tgt_init(dev_info_t *hba_dip, dev_info_t *tgt_dip, 917 scsi_hba_tran_t *hba_tran, struct scsi_device *sd) 918 { 919 char *guid; 920 scsi_vhci_lun_t *vlun; 921 struct scsi_vhci *vhci; 922 clock_t from_ticks; 923 mdi_pathinfo_t *pip; 924 int rval; 925 926 ASSERT(hba_dip != NULL); 927 ASSERT(tgt_dip != NULL); 928 929 if (ddi_prop_lookup_string(DDI_DEV_T_ANY, tgt_dip, PROPFLAGS, 930 MDI_CLIENT_GUID_PROP, &guid) != DDI_SUCCESS) { 931 /* 932 * This must be the .conf node without GUID property. 933 * The node under fp already inserts a delay, so we 934 * just return from here. We rely on this delay to have 935 * all dips be posted to the ndi hotplug thread's newdev 936 * list. This is necessary for the deferred attach 937 * mechanism to work and opens() done soon after boot to 938 * succeed. 939 */ 940 VHCI_DEBUG(4, (CE_WARN, hba_dip, "tgt_init: lun guid " 941 "property failed")); 942 return (DDI_NOT_WELL_FORMED); 943 } 944 945 if (ndi_dev_is_persistent_node(tgt_dip) == 0) { 946 /* 947 * This must be .conf node with the GUID property. We don't 948 * merge property by ndi_merge_node() here because the 949 * devi_addr_buf of .conf node is "" always according the 950 * implementation of vhci_scsi_get_name_bus_addr(). 951 */ 952 ddi_set_name_addr(tgt_dip, NULL); 953 return (DDI_FAILURE); 954 } 955 956 vhci = ddi_get_soft_state(vhci_softstate, ddi_get_instance(hba_dip)); 957 ASSERT(vhci != NULL); 958 959 VHCI_DEBUG(4, (CE_NOTE, hba_dip, 960 "!tgt_init: called for %s (instance %d)\n", 961 ddi_driver_name(tgt_dip), ddi_get_instance(tgt_dip))); 962 963 vlun = vhci_lun_lookup(tgt_dip); 964 965 mutex_enter(&vhci_global_mutex); 966 967 from_ticks = ddi_get_lbolt(); 968 if (vhci_to_ticks == 0) { 969 vhci_to_ticks = from_ticks + 970 drv_usectohz(vhci_init_wait_timeout); 971 } 972 973 #if DEBUG 974 if (vlun) { 975 VHCI_DEBUG(1, (CE_WARN, hba_dip, "tgt_init: " 976 "vhci_scsi_tgt_init: guid %s : found vlun 0x%p " 977 "from_ticks %lx to_ticks %lx", 978 guid, (void *)vlun, from_ticks, vhci_to_ticks)); 979 } else { 980 VHCI_DEBUG(1, (CE_WARN, hba_dip, "tgt_init: " 981 "vhci_scsi_tgt_init: guid %s : vlun not found " 982 "from_ticks %lx to_ticks %lx", guid, from_ticks, 983 vhci_to_ticks)); 984 } 985 #endif 986 987 rval = mdi_select_path(tgt_dip, NULL, 988 (MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH), NULL, &pip); 989 if (rval == MDI_SUCCESS) { 990 mdi_rele_path(pip); 991 } 992 993 /* 994 * Wait for the following conditions : 995 * 1. no vlun available yet 996 * 2. no path established 997 * 3. timer did not expire 998 */ 999 while ((vlun == NULL) || (mdi_client_get_path_count(tgt_dip) == 0) || 1000 (rval != MDI_SUCCESS)) { 1001 if (vlun && vlun->svl_not_supported) { 1002 VHCI_DEBUG(1, (CE_WARN, hba_dip, "tgt_init: " 1003 "vlun 0x%p lun guid %s not supported!", 1004 (void *)vlun, guid)); 1005 mutex_exit(&vhci_global_mutex); 1006 ddi_prop_free(guid); 1007 return (DDI_NOT_WELL_FORMED); 1008 } 1009 if ((vhci_first_time == 0) && (from_ticks >= vhci_to_ticks)) { 1010 vhci_first_time = 1; 1011 } 1012 if (vhci_first_time == 1) { 1013 VHCI_DEBUG(1, (CE_WARN, hba_dip, "vhci_scsi_tgt_init: " 1014 "no wait for %s. from_tick %lx, to_tick %lx", 1015 guid, from_ticks, vhci_to_ticks)); 1016 mutex_exit(&vhci_global_mutex); 1017 ddi_prop_free(guid); 1018 return (DDI_NOT_WELL_FORMED); 1019 } 1020 1021 if (cv_timedwait(&vhci_cv, 1022 &vhci_global_mutex, vhci_to_ticks) == -1) { 1023 /* Timed out */ 1024 #ifdef DEBUG 1025 if (vlun == NULL) { 1026 VHCI_DEBUG(1, (CE_WARN, hba_dip, 1027 "tgt_init: no vlun for %s!", guid)); 1028 } else if (mdi_client_get_path_count(tgt_dip) == 0) { 1029 VHCI_DEBUG(1, (CE_WARN, hba_dip, 1030 "tgt_init: client path count is " 1031 "zero for %s!", guid)); 1032 } else { 1033 VHCI_DEBUG(1, (CE_WARN, hba_dip, 1034 "tgt_init: client path not " 1035 "available yet for %s!", guid)); 1036 } 1037 #endif /* DEBUG */ 1038 mutex_exit(&vhci_global_mutex); 1039 ddi_prop_free(guid); 1040 return (DDI_NOT_WELL_FORMED); 1041 } 1042 vlun = vhci_lun_lookup(tgt_dip); 1043 rval = mdi_select_path(tgt_dip, NULL, 1044 (MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH), 1045 NULL, &pip); 1046 if (rval == MDI_SUCCESS) { 1047 mdi_rele_path(pip); 1048 } 1049 from_ticks = ddi_get_lbolt(); 1050 } 1051 mutex_exit(&vhci_global_mutex); 1052 1053 ASSERT(vlun != NULL); 1054 ddi_prop_free(guid); 1055 1056 scsi_device_hba_private_set(sd, vlun); 1057 1058 return (DDI_SUCCESS); 1059 } 1060 1061 /*ARGSUSED*/ 1062 static void 1063 vhci_scsi_tgt_free(dev_info_t *hba_dip, dev_info_t *tgt_dip, 1064 scsi_hba_tran_t *hba_tran, struct scsi_device *sd) 1065 { 1066 struct scsi_vhci_lun *dvlp; 1067 ASSERT(mdi_client_get_path_count(tgt_dip) <= 0); 1068 dvlp = (struct scsi_vhci_lun *)scsi_device_hba_private_get(sd); 1069 ASSERT(dvlp != NULL); 1070 1071 vhci_lun_free(dvlp, sd); 1072 } 1073 1074 /* 1075 * a PGR register command has started; copy the info we need 1076 */ 1077 int 1078 vhci_pgr_register_start(scsi_vhci_lun_t *vlun, struct scsi_pkt *pkt) 1079 { 1080 struct vhci_pkt *vpkt = TGTPKT2VHCIPKT(pkt); 1081 void *addr; 1082 1083 if (!vpkt->vpkt_tgt_init_bp) 1084 return (TRAN_BADPKT); 1085 1086 addr = bp_mapin_common(vpkt->vpkt_tgt_init_bp, 1087 (vpkt->vpkt_flags & CFLAG_NOWAIT) ? VM_NOSLEEP : VM_SLEEP); 1088 if (addr == NULL) 1089 return (TRAN_BUSY); 1090 1091 mutex_enter(&vlun->svl_mutex); 1092 1093 vhci_print_prout_keys(vlun, "v_pgr_reg_start: before bcopy:"); 1094 1095 bcopy(addr, &vlun->svl_prout, sizeof (vhci_prout_t) - 1096 (2 * MHIOC_RESV_KEY_SIZE * sizeof (char))); 1097 bcopy(pkt->pkt_cdbp, vlun->svl_cdb, sizeof (vlun->svl_cdb)); 1098 1099 vhci_print_prout_keys(vlun, "v_pgr_reg_start: after bcopy:"); 1100 1101 vlun->svl_time = pkt->pkt_time; 1102 vlun->svl_bcount = vpkt->vpkt_tgt_init_bp->b_bcount; 1103 vlun->svl_first_path = vpkt->vpkt_path; 1104 mutex_exit(&vlun->svl_mutex); 1105 return (0); 1106 } 1107 1108 /* 1109 * Function name : vhci_scsi_start() 1110 * 1111 * Return Values : TRAN_FATAL_ERROR - vhci has been shutdown 1112 * or other fatal failure 1113 * preventing packet transportation 1114 * TRAN_BUSY - request queue is full 1115 * TRAN_ACCEPT - pkt has been submitted to phci 1116 * (or is held in the waitQ) 1117 * Description : Implements SCSA's tran_start() entry point for 1118 * packet transport 1119 * 1120 */ 1121 static int 1122 vhci_scsi_start(struct scsi_address *ap, struct scsi_pkt *pkt) 1123 { 1124 int rval = TRAN_ACCEPT; 1125 int instance, held; 1126 struct scsi_vhci *vhci = ADDR2VHCI(ap); 1127 struct scsi_vhci_lun *vlun = ADDR2VLUN(ap); 1128 struct vhci_pkt *vpkt = TGTPKT2VHCIPKT(pkt); 1129 int flags = 0; 1130 scsi_vhci_priv_t *svp, *svp_resrv; 1131 dev_info_t *cdip; 1132 client_lb_t lbp; 1133 int restore_lbp = 0; 1134 /* set if pkt is SCSI-II RESERVE cmd */ 1135 int pkt_reserve_cmd = 0; 1136 int reserve_failed = 0; 1137 int resrv_instance = 0; 1138 mdi_pathinfo_t *pip; 1139 struct scsi_pkt *rel_pkt; 1140 1141 ASSERT(vhci != NULL); 1142 ASSERT(vpkt != NULL); 1143 ASSERT(vpkt->vpkt_state != VHCI_PKT_ISSUED); 1144 cdip = ADDR2DIP(ap); 1145 1146 /* 1147 * Block IOs if LUN is held or QUIESCED for IOs. 1148 */ 1149 if ((VHCI_LUN_IS_HELD(vlun)) || 1150 ((vlun->svl_flags & VLUN_QUIESCED_FLG) == VLUN_QUIESCED_FLG)) { 1151 return (TRAN_BUSY); 1152 } 1153 1154 /* 1155 * vhci_lun needs to be quiesced before SCSI-II RESERVE command 1156 * can be issued. This may require a cv_timedwait, which is 1157 * dangerous to perform in an interrupt context. So if this 1158 * is a RESERVE command a taskq is dispatched to service it. 1159 * This taskq shall again call vhci_scsi_start, but we shall be 1160 * sure its not in an interrupt context. 1161 */ 1162 if ((pkt->pkt_cdbp[0] == SCMD_RESERVE) || 1163 (pkt->pkt_cdbp[0] == SCMD_RESERVE_G1)) { 1164 if (!(vpkt->vpkt_state & VHCI_PKT_THRU_TASKQ)) { 1165 if (taskq_dispatch(vhci->vhci_taskq, 1166 vhci_dispatch_scsi_start, (void *) vpkt, 1167 KM_NOSLEEP) != TASKQID_INVALID) { 1168 return (TRAN_ACCEPT); 1169 } else { 1170 return (TRAN_BUSY); 1171 } 1172 } 1173 1174 /* 1175 * Here we ensure that simultaneous SCSI-II RESERVE cmds don't 1176 * get serviced for a lun. 1177 */ 1178 VHCI_HOLD_LUN(vlun, VH_NOSLEEP, held); 1179 if (!held) { 1180 return (TRAN_BUSY); 1181 } else if ((vlun->svl_flags & VLUN_QUIESCED_FLG) == 1182 VLUN_QUIESCED_FLG) { 1183 VHCI_RELEASE_LUN(vlun); 1184 return (TRAN_BUSY); 1185 } 1186 1187 /* 1188 * To ensure that no IOs occur for this LUN for the duration 1189 * of this pkt set the VLUN_QUIESCED_FLG. 1190 * In case this routine needs to exit on error make sure that 1191 * this flag is cleared. 1192 */ 1193 vlun->svl_flags |= VLUN_QUIESCED_FLG; 1194 pkt_reserve_cmd = 1; 1195 1196 /* 1197 * if this is a SCSI-II RESERVE command, set load balancing 1198 * policy to be ALTERNATE PATH to ensure that all subsequent 1199 * IOs are routed on the same path. This is because if commands 1200 * are routed across multiple paths then IOs on paths other than 1201 * the one on which the RESERVE was executed will get a 1202 * RESERVATION CONFLICT 1203 */ 1204 lbp = mdi_get_lb_policy(cdip); 1205 if (lbp != LOAD_BALANCE_NONE) { 1206 if (vhci_quiesce_lun(vlun) != 1) { 1207 vlun->svl_flags &= ~VLUN_QUIESCED_FLG; 1208 VHCI_RELEASE_LUN(vlun); 1209 return (TRAN_FATAL_ERROR); 1210 } 1211 vlun->svl_lb_policy_save = lbp; 1212 if (mdi_set_lb_policy(cdip, LOAD_BALANCE_NONE) != 1213 MDI_SUCCESS) { 1214 vlun->svl_flags &= ~VLUN_QUIESCED_FLG; 1215 VHCI_RELEASE_LUN(vlun); 1216 return (TRAN_FATAL_ERROR); 1217 } 1218 restore_lbp = 1; 1219 } 1220 1221 VHCI_DEBUG(2, (CE_NOTE, vhci->vhci_dip, 1222 "!vhci_scsi_start: sending SCSI-2 RESERVE, vlun 0x%p, " 1223 "svl_resrv_pip 0x%p, svl_flags: %x, lb_policy %x", 1224 (void *)vlun, (void *)vlun->svl_resrv_pip, vlun->svl_flags, 1225 mdi_get_lb_policy(cdip))); 1226 1227 /* 1228 * See comments for VLUN_RESERVE_ACTIVE_FLG in scsi_vhci.h 1229 * To narrow this window where a reserve command may be sent 1230 * down an inactive path the path states first need to be 1231 * updated. Before calling vhci_update_pathstates reset 1232 * VLUN_RESERVE_ACTIVE_FLG, just in case it was already set 1233 * for this lun. This shall prevent an unnecessary reset 1234 * from being sent out. Also remember currently reserved path 1235 * just for a case the new reservation will go to another path. 1236 */ 1237 if (vlun->svl_flags & VLUN_RESERVE_ACTIVE_FLG) { 1238 resrv_instance = mdi_pi_get_path_instance( 1239 vlun->svl_resrv_pip); 1240 } 1241 vlun->svl_flags &= ~VLUN_RESERVE_ACTIVE_FLG; 1242 vhci_update_pathstates((void *)vlun); 1243 } 1244 1245 instance = ddi_get_instance(vhci->vhci_dip); 1246 1247 /* 1248 * If the command is PRIN with action of zero, then the cmd 1249 * is reading PR keys which requires filtering on completion. 1250 * Data cache sync must be guaranteed. 1251 */ 1252 if ((pkt->pkt_cdbp[0] == SCMD_PRIN) && (pkt->pkt_cdbp[1] == 0) && 1253 (vpkt->vpkt_org_vpkt == NULL)) { 1254 vpkt->vpkt_tgt_init_pkt_flags |= PKT_CONSISTENT; 1255 } 1256 1257 /* 1258 * Do not defer bind for PKT_DMA_PARTIAL 1259 */ 1260 if ((vpkt->vpkt_flags & CFLAG_DMA_PARTIAL) == 0) { 1261 1262 /* This is a non pkt_dma_partial case */ 1263 if ((rval = vhci_bind_transport( 1264 ap, vpkt, vpkt->vpkt_tgt_init_pkt_flags, NULL_FUNC)) 1265 != TRAN_ACCEPT) { 1266 VHCI_DEBUG(6, (CE_WARN, vhci->vhci_dip, 1267 "!vhci%d %x: failed to bind transport: " 1268 "vlun 0x%p pkt_reserved %x restore_lbp %x," 1269 "lbp %x", instance, rval, (void *)vlun, 1270 pkt_reserve_cmd, restore_lbp, lbp)); 1271 if (restore_lbp) 1272 (void) mdi_set_lb_policy(cdip, lbp); 1273 if (pkt_reserve_cmd) 1274 vlun->svl_flags &= ~VLUN_QUIESCED_FLG; 1275 return (rval); 1276 } 1277 VHCI_DEBUG(8, (CE_NOTE, NULL, 1278 "vhci_scsi_start: v_b_t called 0x%p\n", (void *)vpkt)); 1279 } 1280 ASSERT(vpkt->vpkt_hba_pkt != NULL); 1281 ASSERT(vpkt->vpkt_path != NULL); 1282 1283 /* 1284 * This is the chance to adjust the pHCI's pkt and other information 1285 * from target driver's pkt. 1286 */ 1287 VHCI_DEBUG(8, (CE_NOTE, vhci->vhci_dip, "vhci_scsi_start vpkt %p\n", 1288 (void *)vpkt)); 1289 vhci_update_pHCI_pkt(vpkt, pkt); 1290 1291 if (vlun->svl_flags & VLUN_RESERVE_ACTIVE_FLG) { 1292 if (vpkt->vpkt_path != vlun->svl_resrv_pip) { 1293 VHCI_DEBUG(1, (CE_WARN, vhci->vhci_dip, 1294 "!vhci_bind: reserve flag set for vlun 0x%p, but, " 1295 "pktpath 0x%p resrv path 0x%p differ. lb_policy %x", 1296 (void *)vlun, (void *)vpkt->vpkt_path, 1297 (void *)vlun->svl_resrv_pip, 1298 mdi_get_lb_policy(cdip))); 1299 reserve_failed = 1; 1300 } 1301 } 1302 1303 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(vpkt->vpkt_path); 1304 if (svp == NULL || reserve_failed) { 1305 if (pkt_reserve_cmd) { 1306 VHCI_DEBUG(6, (CE_WARN, vhci->vhci_dip, 1307 "!vhci_bind returned null svp vlun 0x%p", 1308 (void *)vlun)); 1309 vlun->svl_flags &= ~VLUN_QUIESCED_FLG; 1310 if (restore_lbp) 1311 (void) mdi_set_lb_policy(cdip, lbp); 1312 } 1313 pkt_cleanup: 1314 if ((vpkt->vpkt_flags & CFLAG_DMA_PARTIAL) == 0) { 1315 scsi_destroy_pkt(vpkt->vpkt_hba_pkt); 1316 vpkt->vpkt_hba_pkt = NULL; 1317 if (vpkt->vpkt_path) { 1318 mdi_rele_path(vpkt->vpkt_path); 1319 vpkt->vpkt_path = NULL; 1320 } 1321 } 1322 if ((pkt->pkt_cdbp[0] == SCMD_PROUT) && 1323 (((pkt->pkt_cdbp[1] & 0x1f) == VHCI_PROUT_REGISTER) || 1324 ((pkt->pkt_cdbp[1] & 0x1f) == VHCI_PROUT_R_AND_IGNORE))) { 1325 sema_v(&vlun->svl_pgr_sema); 1326 } 1327 return (TRAN_BUSY); 1328 } 1329 1330 if ((resrv_instance != 0) && (resrv_instance != 1331 mdi_pi_get_path_instance(vpkt->vpkt_path))) { 1332 /* 1333 * This is an attempt to reserve vpkt->vpkt_path. But the 1334 * previously reserved path referred by resrv_instance might 1335 * still be reserved. Hence we will send a release command 1336 * there in order to avoid a reservation conflict. 1337 */ 1338 VHCI_DEBUG(1, (CE_NOTE, vhci->vhci_dip, "!vhci_scsi_start: " 1339 "conflicting reservation on another path, vlun 0x%p, " 1340 "reserved instance %d, new instance: %d, pip: 0x%p", 1341 (void *)vlun, resrv_instance, 1342 mdi_pi_get_path_instance(vpkt->vpkt_path), 1343 (void *)vpkt->vpkt_path)); 1344 1345 /* 1346 * In rare cases, the path referred by resrv_instance could 1347 * disappear in the meantime. Calling mdi_select_path() below 1348 * is an attempt to find out if the path still exists. It also 1349 * ensures that the path will be held when the release is sent. 1350 */ 1351 rval = mdi_select_path(cdip, NULL, MDI_SELECT_PATH_INSTANCE, 1352 (void *)(intptr_t)resrv_instance, &pip); 1353 1354 if ((rval == MDI_SUCCESS) && (pip != NULL)) { 1355 svp_resrv = (scsi_vhci_priv_t *) 1356 mdi_pi_get_vhci_private(pip); 1357 rel_pkt = scsi_init_pkt(&svp_resrv->svp_psd->sd_address, 1358 NULL, NULL, CDB_GROUP0, 1359 sizeof (struct scsi_arq_status), 0, 0, SLEEP_FUNC, 1360 NULL); 1361 1362 if (rel_pkt == NULL) { 1363 char *p_path; 1364 1365 /* 1366 * This is very unlikely. 1367 * scsi_init_pkt(SLEEP_FUNC) does not fail 1368 * because of resources. But in theory it could 1369 * fail for some other reason. There is not an 1370 * easy way how to recover though. Log a warning 1371 * and return. 1372 */ 1373 p_path = kmem_zalloc(MAXPATHLEN, KM_SLEEP); 1374 vhci_log(CE_WARN, vhci->vhci_dip, "!Sending " 1375 "RELEASE(6) to %s failed, a potential " 1376 "reservation conflict ahead.", 1377 ddi_pathname(mdi_pi_get_phci(pip), p_path)); 1378 kmem_free(p_path, MAXPATHLEN); 1379 1380 if (restore_lbp) 1381 (void) mdi_set_lb_policy(cdip, lbp); 1382 1383 /* no need to check pkt_reserve_cmd here */ 1384 vlun->svl_flags &= ~VLUN_QUIESCED_FLG; 1385 return (TRAN_FATAL_ERROR); 1386 } 1387 1388 rel_pkt->pkt_cdbp[0] = SCMD_RELEASE; 1389 rel_pkt->pkt_time = 60; 1390 1391 /* 1392 * Ignore the return value. If it will fail 1393 * then most likely it is no longer reserved 1394 * anyway. 1395 */ 1396 (void) vhci_do_scsi_cmd(rel_pkt); 1397 VHCI_DEBUG(1, (CE_NOTE, NULL, 1398 "!vhci_scsi_start: path 0x%p, issued SCSI-2" 1399 " RELEASE\n", (void *)pip)); 1400 scsi_destroy_pkt(rel_pkt); 1401 mdi_rele_path(pip); 1402 } 1403 } 1404 1405 VHCI_INCR_PATH_CMDCOUNT(svp); 1406 1407 /* 1408 * Ensure that no other IOs raced ahead, while a RESERVE cmd was 1409 * QUIESCING the same lun. 1410 */ 1411 if ((!pkt_reserve_cmd) && 1412 ((vlun->svl_flags & VLUN_QUIESCED_FLG) == VLUN_QUIESCED_FLG)) { 1413 VHCI_DECR_PATH_CMDCOUNT(svp); 1414 goto pkt_cleanup; 1415 } 1416 1417 if ((pkt->pkt_cdbp[0] == SCMD_PRIN) || 1418 (pkt->pkt_cdbp[0] == SCMD_PROUT)) { 1419 /* 1420 * currently this thread only handles running PGR 1421 * commands, so don't bother creating it unless 1422 * something interesting is going to happen (like 1423 * either a PGR out, or a PGR in with enough space 1424 * to hold the keys that are getting returned) 1425 */ 1426 mutex_enter(&vlun->svl_mutex); 1427 if (((vlun->svl_flags & VLUN_TASK_D_ALIVE_FLG) == 0) && 1428 (pkt->pkt_cdbp[0] == SCMD_PROUT)) { 1429 vlun->svl_taskq = taskq_create("vlun_pgr_task_daemon", 1430 1, MINCLSYSPRI, 1, 4, 0); 1431 vlun->svl_flags |= VLUN_TASK_D_ALIVE_FLG; 1432 } 1433 mutex_exit(&vlun->svl_mutex); 1434 if ((pkt->pkt_cdbp[0] == SCMD_PROUT) && 1435 (((pkt->pkt_cdbp[1] & 0x1f) == VHCI_PROUT_REGISTER) || 1436 ((pkt->pkt_cdbp[1] & 0x1f) == VHCI_PROUT_R_AND_IGNORE))) { 1437 if (rval = vhci_pgr_register_start(vlun, pkt)) { 1438 /* an error */ 1439 sema_v(&vlun->svl_pgr_sema); 1440 return (rval); 1441 } 1442 } 1443 } 1444 1445 /* 1446 * SCSI-II RESERVE cmd is not expected in polled mode. 1447 * If this changes it needs to be handled for the polled scenario. 1448 */ 1449 flags = vpkt->vpkt_hba_pkt->pkt_flags; 1450 1451 /* 1452 * Set the path_instance *before* sending the scsi_pkt down the path 1453 * to mpxio's pHCI so that additional path abstractions at a pHCI 1454 * level (like maybe iSCSI at some point in the future) can update 1455 * the path_instance. 1456 */ 1457 if (scsi_pkt_allocated_correctly(vpkt->vpkt_hba_pkt)) 1458 vpkt->vpkt_hba_pkt->pkt_path_instance = 1459 mdi_pi_get_path_instance(vpkt->vpkt_path); 1460 1461 rval = scsi_transport(vpkt->vpkt_hba_pkt); 1462 if (rval == TRAN_ACCEPT) { 1463 if (flags & FLAG_NOINTR) { 1464 struct scsi_pkt *tpkt = vpkt->vpkt_tgt_pkt; 1465 struct scsi_pkt *pkt = vpkt->vpkt_hba_pkt; 1466 1467 ASSERT(tpkt != NULL); 1468 *(tpkt->pkt_scbp) = *(pkt->pkt_scbp); 1469 tpkt->pkt_resid = pkt->pkt_resid; 1470 tpkt->pkt_state = pkt->pkt_state; 1471 tpkt->pkt_statistics = pkt->pkt_statistics; 1472 tpkt->pkt_reason = pkt->pkt_reason; 1473 1474 if ((*(pkt->pkt_scbp) == STATUS_CHECK) && 1475 (pkt->pkt_state & STATE_ARQ_DONE)) { 1476 bcopy(pkt->pkt_scbp, tpkt->pkt_scbp, 1477 vpkt->vpkt_tgt_init_scblen); 1478 } 1479 1480 VHCI_DECR_PATH_CMDCOUNT(svp); 1481 if ((vpkt->vpkt_flags & CFLAG_DMA_PARTIAL) == 0) { 1482 scsi_destroy_pkt(vpkt->vpkt_hba_pkt); 1483 vpkt->vpkt_hba_pkt = NULL; 1484 if (vpkt->vpkt_path) { 1485 mdi_rele_path(vpkt->vpkt_path); 1486 vpkt->vpkt_path = NULL; 1487 } 1488 } 1489 /* 1490 * This path will not automatically retry pkts 1491 * internally, therefore, vpkt_org_vpkt should 1492 * never be set. 1493 */ 1494 ASSERT(vpkt->vpkt_org_vpkt == NULL); 1495 scsi_hba_pkt_comp(tpkt); 1496 } 1497 return (rval); 1498 } else if ((pkt->pkt_cdbp[0] == SCMD_PROUT) && 1499 (((pkt->pkt_cdbp[1] & 0x1f) == VHCI_PROUT_REGISTER) || 1500 ((pkt->pkt_cdbp[1] & 0x1f) == VHCI_PROUT_R_AND_IGNORE))) { 1501 /* the command exited with bad status */ 1502 sema_v(&vlun->svl_pgr_sema); 1503 } else if (vpkt->vpkt_tgt_pkt->pkt_cdbp[0] == SCMD_PRIN) { 1504 /* the command exited with bad status */ 1505 sema_v(&vlun->svl_pgr_sema); 1506 } else if (pkt_reserve_cmd) { 1507 VHCI_DEBUG(6, (CE_WARN, vhci->vhci_dip, 1508 "!vhci_scsi_start: reserve failed vlun 0x%p", 1509 (void *)vlun)); 1510 vlun->svl_flags &= ~VLUN_QUIESCED_FLG; 1511 if (restore_lbp) 1512 (void) mdi_set_lb_policy(cdip, lbp); 1513 } 1514 1515 ASSERT(vpkt->vpkt_hba_pkt != NULL); 1516 VHCI_DECR_PATH_CMDCOUNT(svp); 1517 1518 /* Do not destroy phci packet information for PKT_DMA_PARTIAL */ 1519 if ((vpkt->vpkt_flags & CFLAG_DMA_PARTIAL) == 0) { 1520 scsi_destroy_pkt(vpkt->vpkt_hba_pkt); 1521 vpkt->vpkt_hba_pkt = NULL; 1522 if (vpkt->vpkt_path) { 1523 MDI_PI_ERRSTAT(vpkt->vpkt_path, MDI_PI_TRANSERR); 1524 mdi_rele_path(vpkt->vpkt_path); 1525 vpkt->vpkt_path = NULL; 1526 } 1527 } 1528 return (TRAN_BUSY); 1529 } 1530 1531 /* 1532 * Function name : vhci_scsi_reset() 1533 * 1534 * Return Values : 0 - reset failed 1535 * 1 - reset succeeded 1536 */ 1537 1538 /* ARGSUSED */ 1539 static int 1540 vhci_scsi_reset(struct scsi_address *ap, int level) 1541 { 1542 int rval = 0; 1543 1544 cmn_err(CE_WARN, "!vhci_scsi_reset 0x%x", level); 1545 if ((level == RESET_TARGET) || (level == RESET_LUN)) { 1546 return (vhci_scsi_reset_target(ap, level, TRUE)); 1547 } else if (level == RESET_ALL) { 1548 return (vhci_scsi_reset_bus(ap)); 1549 } 1550 1551 return (rval); 1552 } 1553 1554 /* 1555 * vhci_recovery_reset: 1556 * Issues reset to the device 1557 * Input: 1558 * vlun - vhci lun pointer of the device 1559 * ap - address of the device 1560 * select_path: 1561 * If select_path is FALSE, then the address specified in ap is 1562 * the path on which reset will be issued. 1563 * If select_path is TRUE, then path is obtained by calling 1564 * mdi_select_path. 1565 * 1566 * recovery_depth: 1567 * Caller can specify the level of reset. 1568 * VHCI_DEPTH_LUN - 1569 * Issues LUN RESET if device supports lun reset. 1570 * VHCI_DEPTH_TARGET - 1571 * If Lun Reset fails or the device does not support 1572 * Lun Reset, issues TARGET RESET 1573 * VHCI_DEPTH_ALL - 1574 * If Lun Reset fails or the device does not support 1575 * Lun Reset, issues TARGET RESET. 1576 * If TARGET RESET does not succeed, issues Bus Reset. 1577 */ 1578 1579 static int 1580 vhci_recovery_reset(scsi_vhci_lun_t *vlun, struct scsi_address *ap, 1581 uint8_t select_path, uint8_t recovery_depth) 1582 { 1583 int ret = 0; 1584 1585 ASSERT(ap != NULL); 1586 1587 if (vlun && vlun->svl_support_lun_reset == 1) { 1588 ret = vhci_scsi_reset_target(ap, RESET_LUN, 1589 select_path); 1590 } 1591 1592 recovery_depth--; 1593 1594 if ((ret == 0) && recovery_depth) { 1595 ret = vhci_scsi_reset_target(ap, RESET_TARGET, 1596 select_path); 1597 recovery_depth--; 1598 } 1599 1600 if ((ret == 0) && recovery_depth) { 1601 (void) scsi_reset(ap, RESET_ALL); 1602 } 1603 1604 return (ret); 1605 } 1606 1607 /* 1608 * Note: The scsi_address passed to this routine could be the scsi_address 1609 * for the virtual device or the physical device. No assumptions should be 1610 * made in this routine about the contents of the ap structure. 1611 * Further, note that the child dip would be the dip of the ssd node regardless 1612 * of the scsi_address passed in. 1613 */ 1614 static int 1615 vhci_scsi_reset_target(struct scsi_address *ap, int level, uint8_t select_path) 1616 { 1617 dev_info_t *vdip, *cdip; 1618 mdi_pathinfo_t *pip = NULL; 1619 mdi_pathinfo_t *npip = NULL; 1620 int rval = -1; 1621 scsi_vhci_priv_t *svp = NULL; 1622 struct scsi_address *pap = NULL; 1623 scsi_hba_tran_t *hba = NULL; 1624 int sps; 1625 struct scsi_vhci *vhci = NULL; 1626 1627 if (select_path != TRUE) { 1628 ASSERT(ap != NULL); 1629 if (level == RESET_LUN) { 1630 hba = ap->a_hba_tran; 1631 ASSERT(hba != NULL); 1632 return (hba->tran_reset(ap, RESET_LUN)); 1633 } 1634 return (scsi_reset(ap, level)); 1635 } 1636 1637 cdip = ADDR2DIP(ap); 1638 ASSERT(cdip != NULL); 1639 vdip = ddi_get_parent(cdip); 1640 ASSERT(vdip != NULL); 1641 vhci = ddi_get_soft_state(vhci_softstate, ddi_get_instance(vdip)); 1642 ASSERT(vhci != NULL); 1643 1644 rval = mdi_select_path(cdip, NULL, MDI_SELECT_ONLINE_PATH, NULL, &pip); 1645 if ((rval != MDI_SUCCESS) || (pip == NULL)) { 1646 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_scsi_reset_target: " 1647 "Unable to get a path, dip 0x%p", (void *)cdip)); 1648 return (0); 1649 } 1650 again: 1651 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(pip); 1652 if (svp == NULL) { 1653 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_scsi_reset_target: " 1654 "priv is NULL, pip 0x%p", (void *)pip)); 1655 mdi_rele_path(pip); 1656 return (0); 1657 } 1658 1659 if (svp->svp_psd == NULL) { 1660 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_scsi_reset_target: " 1661 "psd is NULL, pip 0x%p, svp 0x%p", 1662 (void *)pip, (void *)svp)); 1663 mdi_rele_path(pip); 1664 return (0); 1665 } 1666 1667 pap = &svp->svp_psd->sd_address; 1668 hba = pap->a_hba_tran; 1669 1670 ASSERT(pap != NULL); 1671 ASSERT(hba != NULL); 1672 1673 if (hba->tran_reset != NULL) { 1674 if (hba->tran_reset(pap, level) == 0) { 1675 vhci_log(CE_WARN, vdip, "!%s%d: " 1676 "path %s, reset %d failed", 1677 ddi_driver_name(cdip), ddi_get_instance(cdip), 1678 mdi_pi_spathname(pip), level); 1679 1680 /* 1681 * Select next path and issue the reset, repeat 1682 * until all paths are exhausted 1683 */ 1684 sps = mdi_select_path(cdip, NULL, 1685 MDI_SELECT_ONLINE_PATH, pip, &npip); 1686 if ((sps != MDI_SUCCESS) || (npip == NULL)) { 1687 mdi_rele_path(pip); 1688 return (0); 1689 } 1690 mdi_rele_path(pip); 1691 pip = npip; 1692 goto again; 1693 } 1694 mdi_rele_path(pip); 1695 mutex_enter(&vhci->vhci_mutex); 1696 scsi_hba_reset_notify_callback(&vhci->vhci_mutex, 1697 &vhci->vhci_reset_notify_listf); 1698 mutex_exit(&vhci->vhci_mutex); 1699 VHCI_DEBUG(6, (CE_NOTE, NULL, "!vhci_scsi_reset_target: " 1700 "reset %d sent down pip:%p for cdip:%p\n", level, 1701 (void *)pip, (void *)cdip)); 1702 return (1); 1703 } 1704 mdi_rele_path(pip); 1705 return (0); 1706 } 1707 1708 1709 /* ARGSUSED */ 1710 static int 1711 vhci_scsi_reset_bus(struct scsi_address *ap) 1712 { 1713 return (1); 1714 } 1715 1716 1717 /* 1718 * called by vhci_getcap and vhci_setcap to get and set (respectively) 1719 * SCSI capabilities 1720 */ 1721 /* ARGSUSED */ 1722 static int 1723 vhci_commoncap(struct scsi_address *ap, char *cap, 1724 int val, int tgtonly, int doset) 1725 { 1726 struct scsi_vhci *vhci = ADDR2VHCI(ap); 1727 struct scsi_vhci_lun *vlun = ADDR2VLUN(ap); 1728 int cidx; 1729 int rval = 0; 1730 1731 if (cap == (char *)0) { 1732 VHCI_DEBUG(3, (CE_WARN, vhci->vhci_dip, 1733 "!vhci_commoncap: invalid arg")); 1734 return (rval); 1735 } 1736 1737 if (vlun == NULL) { 1738 VHCI_DEBUG(3, (CE_WARN, vhci->vhci_dip, 1739 "!vhci_commoncap: vlun is null")); 1740 return (rval); 1741 } 1742 1743 if ((cidx = scsi_hba_lookup_capstr(cap)) == -1) { 1744 return (UNDEFINED); 1745 } 1746 1747 /* 1748 * Process setcap request. 1749 */ 1750 if (doset) { 1751 /* 1752 * At present, we can only set binary (0/1) values 1753 */ 1754 switch (cidx) { 1755 case SCSI_CAP_ARQ: 1756 if (val == 0) { 1757 rval = 0; 1758 } else { 1759 rval = 1; 1760 } 1761 break; 1762 1763 case SCSI_CAP_LUN_RESET: 1764 if (tgtonly == 0) { 1765 VHCI_DEBUG(1, (CE_WARN, vhci->vhci_dip, 1766 "scsi_vhci_setcap: " 1767 "Returning error since whom = 0")); 1768 rval = -1; 1769 break; 1770 } 1771 /* 1772 * Set the capability accordingly. 1773 */ 1774 mutex_enter(&vlun->svl_mutex); 1775 vlun->svl_support_lun_reset = val; 1776 rval = val; 1777 mutex_exit(&vlun->svl_mutex); 1778 break; 1779 1780 case SCSI_CAP_SECTOR_SIZE: 1781 mutex_enter(&vlun->svl_mutex); 1782 vlun->svl_sector_size = val; 1783 vlun->svl_setcap_done = 1; 1784 mutex_exit(&vlun->svl_mutex); 1785 (void) vhci_pHCI_cap(ap, cap, val, tgtonly, NULL); 1786 1787 /* Always return success */ 1788 rval = 1; 1789 break; 1790 1791 default: 1792 VHCI_DEBUG(6, (CE_WARN, vhci->vhci_dip, 1793 "!vhci_setcap: unsupported %d", cidx)); 1794 rval = UNDEFINED; 1795 break; 1796 } 1797 1798 VHCI_DEBUG(6, (CE_NOTE, vhci->vhci_dip, 1799 "!set cap: cap=%s, val/tgtonly/doset/rval = " 1800 "0x%x/0x%x/0x%x/%d\n", 1801 cap, val, tgtonly, doset, rval)); 1802 1803 } else { 1804 /* 1805 * Process getcap request. 1806 */ 1807 switch (cidx) { 1808 case SCSI_CAP_DMA_MAX: 1809 /* 1810 * For X86 this capability is caught in scsi_ifgetcap(). 1811 * XXX Should this be getting the value from the pHCI? 1812 */ 1813 rval = (int)VHCI_DMA_MAX_XFER_CAP; 1814 break; 1815 1816 case SCSI_CAP_INITIATOR_ID: 1817 rval = 0x00; 1818 break; 1819 1820 case SCSI_CAP_ARQ: 1821 case SCSI_CAP_RESET_NOTIFICATION: 1822 case SCSI_CAP_TAGGED_QING: 1823 rval = 1; 1824 break; 1825 1826 case SCSI_CAP_SCSI_VERSION: 1827 rval = 3; 1828 break; 1829 1830 case SCSI_CAP_INTERCONNECT_TYPE: 1831 rval = INTERCONNECT_FABRIC; 1832 break; 1833 1834 case SCSI_CAP_LUN_RESET: 1835 /* 1836 * scsi_vhci will always return success for LUN reset. 1837 * When request for doing LUN reset comes 1838 * through scsi_reset entry point, at that time attempt 1839 * will be made to do reset through all the possible 1840 * paths. 1841 */ 1842 mutex_enter(&vlun->svl_mutex); 1843 rval = vlun->svl_support_lun_reset; 1844 mutex_exit(&vlun->svl_mutex); 1845 VHCI_DEBUG(4, (CE_WARN, vhci->vhci_dip, 1846 "scsi_vhci_getcap:" 1847 "Getting the Lun reset capability %d", rval)); 1848 break; 1849 1850 case SCSI_CAP_SECTOR_SIZE: 1851 mutex_enter(&vlun->svl_mutex); 1852 rval = vlun->svl_sector_size; 1853 mutex_exit(&vlun->svl_mutex); 1854 break; 1855 1856 case SCSI_CAP_CDB_LEN: 1857 rval = VHCI_SCSI_CDB_SIZE; 1858 break; 1859 1860 case SCSI_CAP_DMA_MAX_ARCH: 1861 /* 1862 * For X86 this capability is caught in scsi_ifgetcap(). 1863 * XXX Should this be getting the value from the pHCI? 1864 */ 1865 rval = 0; 1866 break; 1867 1868 default: 1869 VHCI_DEBUG(6, (CE_WARN, vhci->vhci_dip, 1870 "!vhci_getcap: unsupported %d", cidx)); 1871 rval = UNDEFINED; 1872 break; 1873 } 1874 1875 VHCI_DEBUG(6, (CE_NOTE, vhci->vhci_dip, 1876 "!get cap: cap=%s, val/tgtonly/doset/rval = " 1877 "0x%x/0x%x/0x%x/%d\n", 1878 cap, val, tgtonly, doset, rval)); 1879 } 1880 return (rval); 1881 } 1882 1883 1884 /* 1885 * Function name : vhci_scsi_getcap() 1886 * 1887 */ 1888 static int 1889 vhci_scsi_getcap(struct scsi_address *ap, char *cap, int whom) 1890 { 1891 return (vhci_commoncap(ap, cap, 0, whom, 0)); 1892 } 1893 1894 static int 1895 vhci_scsi_setcap(struct scsi_address *ap, char *cap, int value, int whom) 1896 { 1897 return (vhci_commoncap(ap, cap, value, whom, 1)); 1898 } 1899 1900 /* 1901 * Function name : vhci_scsi_abort() 1902 */ 1903 /* ARGSUSED */ 1904 static int 1905 vhci_scsi_abort(struct scsi_address *ap, struct scsi_pkt *pkt) 1906 { 1907 return (0); 1908 } 1909 1910 /* 1911 * Function name : vhci_scsi_init_pkt 1912 * 1913 * Return Values : pointer to scsi_pkt, or NULL 1914 */ 1915 /* ARGSUSED */ 1916 static struct scsi_pkt * 1917 vhci_scsi_init_pkt(struct scsi_address *ap, struct scsi_pkt *pkt, 1918 struct buf *bp, int cmdlen, int statuslen, int tgtlen, 1919 int flags, int (*callback)(caddr_t), caddr_t arg) 1920 { 1921 struct scsi_vhci *vhci = ADDR2VHCI(ap); 1922 struct vhci_pkt *vpkt; 1923 int rval; 1924 int newpkt = 0; 1925 struct scsi_pkt *pktp; 1926 1927 1928 if (pkt == NULL) { 1929 if (cmdlen > VHCI_SCSI_CDB_SIZE) { 1930 if ((cmdlen != VHCI_SCSI_OSD_CDB_SIZE) || 1931 ((flags & VHCI_SCSI_OSD_PKT_FLAGS) != 1932 VHCI_SCSI_OSD_PKT_FLAGS)) { 1933 VHCI_DEBUG(1, (CE_NOTE, NULL, 1934 "!init pkt: cdb size not supported\n")); 1935 return (NULL); 1936 } 1937 } 1938 1939 pktp = scsi_hba_pkt_alloc(vhci->vhci_dip, 1940 ap, cmdlen, statuslen, tgtlen, sizeof (*vpkt), callback, 1941 arg); 1942 1943 if (pktp == NULL) { 1944 return (NULL); 1945 } 1946 1947 /* Get the vhci's private structure */ 1948 vpkt = (struct vhci_pkt *)(pktp->pkt_ha_private); 1949 ASSERT(vpkt); 1950 1951 /* Save the target driver's packet */ 1952 vpkt->vpkt_tgt_pkt = pktp; 1953 1954 /* 1955 * Save pkt_tgt_init_pkt fields if deferred binding 1956 * is needed or for other purposes. 1957 */ 1958 vpkt->vpkt_tgt_init_pkt_flags = flags; 1959 vpkt->vpkt_flags = (callback == NULL_FUNC) ? CFLAG_NOWAIT : 0; 1960 vpkt->vpkt_state = VHCI_PKT_IDLE; 1961 vpkt->vpkt_tgt_init_cdblen = cmdlen; 1962 vpkt->vpkt_tgt_init_scblen = statuslen; 1963 newpkt = 1; 1964 } else { /* pkt not NULL */ 1965 vpkt = pkt->pkt_ha_private; 1966 } 1967 1968 VHCI_DEBUG(8, (CE_NOTE, NULL, "vhci_scsi_init_pkt " 1969 "vpkt %p flags %x\n", (void *)vpkt, flags)); 1970 1971 /* Clear any stale error flags */ 1972 if (bp) { 1973 bioerror(bp, 0); 1974 } 1975 1976 vpkt->vpkt_tgt_init_bp = bp; 1977 1978 if (flags & PKT_DMA_PARTIAL) { 1979 1980 /* 1981 * Immediate binding is needed. 1982 * Target driver may not set this flag in next invocation. 1983 * vhci has to remember this flag was set during first 1984 * invocation of vhci_scsi_init_pkt. 1985 */ 1986 vpkt->vpkt_flags |= CFLAG_DMA_PARTIAL; 1987 } 1988 1989 if (vpkt->vpkt_flags & CFLAG_DMA_PARTIAL) { 1990 1991 /* 1992 * Re-initialize some of the target driver packet state 1993 * information. 1994 */ 1995 vpkt->vpkt_tgt_pkt->pkt_state = 0; 1996 vpkt->vpkt_tgt_pkt->pkt_statistics = 0; 1997 vpkt->vpkt_tgt_pkt->pkt_reason = 0; 1998 1999 /* 2000 * Binding a vpkt->vpkt_path for this IO at init_time. 2001 * If an IO error happens later, target driver will clear 2002 * this vpkt->vpkt_path binding before re-init IO again. 2003 */ 2004 VHCI_DEBUG(8, (CE_NOTE, NULL, 2005 "vhci_scsi_init_pkt: calling v_b_t %p, newpkt %d\n", 2006 (void *)vpkt, newpkt)); 2007 if (pkt && vpkt->vpkt_hba_pkt) { 2008 VHCI_DEBUG(4, (CE_NOTE, NULL, 2009 "v_s_i_p calling update_pHCI_pkt resid %ld\n", 2010 pkt->pkt_resid)); 2011 vhci_update_pHCI_pkt(vpkt, pkt); 2012 } 2013 if (callback == SLEEP_FUNC) { 2014 rval = vhci_bind_transport( 2015 ap, vpkt, flags, callback); 2016 } else { 2017 rval = vhci_bind_transport( 2018 ap, vpkt, flags, NULL_FUNC); 2019 } 2020 VHCI_DEBUG(8, (CE_NOTE, NULL, 2021 "vhci_scsi_init_pkt: v_b_t called 0x%p rval 0x%x\n", 2022 (void *)vpkt, rval)); 2023 if (bp) { 2024 if (rval == TRAN_FATAL_ERROR) { 2025 /* 2026 * No paths available. Could not bind 2027 * any pHCI. Setting EFAULT as a way 2028 * to indicate no DMA is mapped. 2029 */ 2030 bioerror(bp, EFAULT); 2031 } else { 2032 /* 2033 * Do not indicate any pHCI errors to 2034 * target driver otherwise. 2035 */ 2036 bioerror(bp, 0); 2037 } 2038 } 2039 if (rval != TRAN_ACCEPT) { 2040 VHCI_DEBUG(8, (CE_NOTE, NULL, 2041 "vhci_scsi_init_pkt: " 2042 "v_b_t failed 0x%p newpkt %x\n", 2043 (void *)vpkt, newpkt)); 2044 if (newpkt) { 2045 scsi_hba_pkt_free(ap, 2046 vpkt->vpkt_tgt_pkt); 2047 } 2048 return (NULL); 2049 } 2050 ASSERT(vpkt->vpkt_hba_pkt != NULL); 2051 ASSERT(vpkt->vpkt_path != NULL); 2052 2053 /* Update the resid for the target driver */ 2054 vpkt->vpkt_tgt_pkt->pkt_resid = 2055 vpkt->vpkt_hba_pkt->pkt_resid; 2056 } 2057 2058 return (vpkt->vpkt_tgt_pkt); 2059 } 2060 2061 /* 2062 * Function name : vhci_scsi_destroy_pkt 2063 * 2064 * Return Values : none 2065 */ 2066 static void 2067 vhci_scsi_destroy_pkt(struct scsi_address *ap, struct scsi_pkt *pkt) 2068 { 2069 struct vhci_pkt *vpkt = (struct vhci_pkt *)pkt->pkt_ha_private; 2070 2071 VHCI_DEBUG(8, (CE_NOTE, NULL, 2072 "vhci_scsi_destroy_pkt: vpkt 0x%p\n", (void *)vpkt)); 2073 2074 vpkt->vpkt_tgt_init_pkt_flags = 0; 2075 if (vpkt->vpkt_hba_pkt) { 2076 scsi_destroy_pkt(vpkt->vpkt_hba_pkt); 2077 vpkt->vpkt_hba_pkt = NULL; 2078 } 2079 if (vpkt->vpkt_path) { 2080 mdi_rele_path(vpkt->vpkt_path); 2081 vpkt->vpkt_path = NULL; 2082 } 2083 2084 ASSERT(vpkt->vpkt_state != VHCI_PKT_ISSUED); 2085 scsi_hba_pkt_free(ap, vpkt->vpkt_tgt_pkt); 2086 } 2087 2088 /* 2089 * Function name : vhci_scsi_dmafree() 2090 * 2091 * Return Values : none 2092 */ 2093 /*ARGSUSED*/ 2094 static void 2095 vhci_scsi_dmafree(struct scsi_address *ap, struct scsi_pkt *pkt) 2096 { 2097 struct vhci_pkt *vpkt = (struct vhci_pkt *)pkt->pkt_ha_private; 2098 2099 VHCI_DEBUG(6, (CE_NOTE, NULL, 2100 "vhci_scsi_dmafree: vpkt 0x%p\n", (void *)vpkt)); 2101 2102 ASSERT(vpkt != NULL); 2103 if (vpkt->vpkt_hba_pkt) { 2104 scsi_destroy_pkt(vpkt->vpkt_hba_pkt); 2105 vpkt->vpkt_hba_pkt = NULL; 2106 } 2107 if (vpkt->vpkt_path) { 2108 mdi_rele_path(vpkt->vpkt_path); 2109 vpkt->vpkt_path = NULL; 2110 } 2111 } 2112 2113 /* 2114 * Function name : vhci_scsi_sync_pkt() 2115 * 2116 * Return Values : none 2117 */ 2118 /*ARGSUSED*/ 2119 static void 2120 vhci_scsi_sync_pkt(struct scsi_address *ap, struct scsi_pkt *pkt) 2121 { 2122 struct vhci_pkt *vpkt = (struct vhci_pkt *)pkt->pkt_ha_private; 2123 2124 ASSERT(vpkt != NULL); 2125 if (vpkt->vpkt_hba_pkt) { 2126 scsi_sync_pkt(vpkt->vpkt_hba_pkt); 2127 } 2128 } 2129 2130 /* 2131 * routine for reset notification setup, to register or cancel. 2132 */ 2133 static int 2134 vhci_scsi_reset_notify(struct scsi_address *ap, int flag, 2135 void (*callback)(caddr_t), caddr_t arg) 2136 { 2137 struct scsi_vhci *vhci = ADDR2VHCI(ap); 2138 return (scsi_hba_reset_notify_setup(ap, flag, callback, arg, 2139 &vhci->vhci_mutex, &vhci->vhci_reset_notify_listf)); 2140 } 2141 2142 static int 2143 vhci_scsi_get_name_bus_addr(struct scsi_device *sd, 2144 char *name, int len, int bus_addr) 2145 { 2146 dev_info_t *cdip; 2147 char *guid; 2148 scsi_vhci_lun_t *vlun; 2149 2150 ASSERT(sd != NULL); 2151 ASSERT(name != NULL); 2152 2153 *name = 0; 2154 cdip = sd->sd_dev; 2155 2156 ASSERT(cdip != NULL); 2157 2158 if (mdi_component_is_client(cdip, NULL) != MDI_SUCCESS) 2159 return (1); 2160 2161 if (ddi_prop_lookup_string(DDI_DEV_T_ANY, cdip, PROPFLAGS, 2162 MDI_CLIENT_GUID_PROP, &guid) != DDI_SUCCESS) 2163 return (1); 2164 2165 /* 2166 * Message is "sd# at scsi_vhci0: unit-address <guid>: <bus_addr>". 2167 * <guid> bus_addr argument == 0 2168 * <bus_addr> bus_addr argument != 0 2169 * Since the <guid> is already provided with unit-address, we just 2170 * provide failover module in <bus_addr> to keep output shorter. 2171 */ 2172 vlun = ADDR2VLUN(&sd->sd_address); 2173 if (bus_addr == 0) { 2174 /* report the guid: */ 2175 (void) snprintf(name, len, "g%s", guid); 2176 } else if (vlun && vlun->svl_fops_name) { 2177 /* report the name of the failover module */ 2178 (void) snprintf(name, len, "%s", vlun->svl_fops_name); 2179 } 2180 2181 ddi_prop_free(guid); 2182 return (1); 2183 } 2184 2185 static int 2186 vhci_scsi_get_bus_addr(struct scsi_device *sd, char *name, int len) 2187 { 2188 return (vhci_scsi_get_name_bus_addr(sd, name, len, 1)); 2189 } 2190 2191 static int 2192 vhci_scsi_get_name(struct scsi_device *sd, char *name, int len) 2193 { 2194 return (vhci_scsi_get_name_bus_addr(sd, name, len, 0)); 2195 } 2196 2197 /* 2198 * Return a pointer to the guid part of the devnm. 2199 * devnm format is "nodename@busaddr", busaddr format is "gGUID". 2200 */ 2201 static char * 2202 vhci_devnm_to_guid(char *devnm) 2203 { 2204 char *cp = devnm; 2205 2206 if (devnm == NULL) 2207 return (NULL); 2208 2209 while (*cp != '\0' && *cp != '@') 2210 cp++; 2211 if (*cp == '@' && *(cp + 1) == 'g') 2212 return (cp + 2); 2213 return (NULL); 2214 } 2215 2216 static int 2217 vhci_bind_transport(struct scsi_address *ap, struct vhci_pkt *vpkt, int flags, 2218 int (*func)(caddr_t)) 2219 { 2220 struct scsi_vhci *vhci = ADDR2VHCI(ap); 2221 dev_info_t *cdip = ADDR2DIP(ap); 2222 mdi_pathinfo_t *pip = NULL; 2223 mdi_pathinfo_t *npip = NULL; 2224 scsi_vhci_priv_t *svp = NULL; 2225 struct scsi_device *psd = NULL; 2226 struct scsi_address *address = NULL; 2227 struct scsi_pkt *pkt = NULL; 2228 int rval = -1; 2229 int pgr_sema_held = 0; 2230 int held; 2231 int mps_flag = MDI_SELECT_ONLINE_PATH; 2232 struct scsi_vhci_lun *vlun; 2233 int path_instance = 0; 2234 2235 vlun = ADDR2VLUN(ap); 2236 ASSERT(vlun != 0); 2237 2238 if ((vpkt->vpkt_tgt_pkt->pkt_cdbp[0] == SCMD_PROUT) && 2239 (((vpkt->vpkt_tgt_pkt->pkt_cdbp[1] & 0x1f) == 2240 VHCI_PROUT_REGISTER) || 2241 ((vpkt->vpkt_tgt_pkt->pkt_cdbp[1] & 0x1f) == 2242 VHCI_PROUT_R_AND_IGNORE))) { 2243 if (!sema_tryp(&vlun->svl_pgr_sema)) 2244 return (TRAN_BUSY); 2245 pgr_sema_held = 1; 2246 if (vlun->svl_first_path != NULL) { 2247 rval = mdi_select_path(cdip, NULL, 2248 MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH, 2249 NULL, &pip); 2250 if ((rval != MDI_SUCCESS) || (pip == NULL)) { 2251 VHCI_DEBUG(4, (CE_NOTE, NULL, 2252 "vhci_bind_transport: path select fail\n")); 2253 } else { 2254 npip = pip; 2255 do { 2256 if (npip == vlun->svl_first_path) { 2257 VHCI_DEBUG(4, (CE_NOTE, NULL, 2258 "vhci_bind_transport: " 2259 "valid first path 0x%p\n", 2260 (void *) 2261 vlun->svl_first_path)); 2262 pip = vlun->svl_first_path; 2263 goto bind_path; 2264 } 2265 pip = npip; 2266 rval = mdi_select_path(cdip, NULL, 2267 MDI_SELECT_ONLINE_PATH | 2268 MDI_SELECT_STANDBY_PATH, 2269 pip, &npip); 2270 mdi_rele_path(pip); 2271 } while ((rval == MDI_SUCCESS) && 2272 (npip != NULL)); 2273 } 2274 } 2275 2276 if (vlun->svl_first_path) { 2277 VHCI_DEBUG(4, (CE_NOTE, NULL, 2278 "vhci_bind_transport: invalid first path 0x%p\n", 2279 (void *)vlun->svl_first_path)); 2280 vlun->svl_first_path = NULL; 2281 } 2282 } else if (vpkt->vpkt_tgt_pkt->pkt_cdbp[0] == SCMD_PRIN) { 2283 if ((vpkt->vpkt_state & VHCI_PKT_THRU_TASKQ) == 0) { 2284 if (!sema_tryp(&vlun->svl_pgr_sema)) 2285 return (TRAN_BUSY); 2286 } 2287 pgr_sema_held = 1; 2288 } 2289 2290 /* 2291 * If the path is already bound for PKT_PARTIAL_DMA case, 2292 * try to use the same path. 2293 */ 2294 if ((vpkt->vpkt_flags & CFLAG_DMA_PARTIAL) && vpkt->vpkt_path) { 2295 VHCI_DEBUG(4, (CE_NOTE, NULL, 2296 "vhci_bind_transport: PKT_PARTIAL_DMA " 2297 "vpkt 0x%p, path 0x%p\n", 2298 (void *)vpkt, (void *)vpkt->vpkt_path)); 2299 pip = vpkt->vpkt_path; 2300 goto bind_path; 2301 } 2302 2303 /* 2304 * Get path_instance. Non-zero with FLAG_PKT_PATH_INSTANCE set 2305 * indicates that mdi_select_path should be called to select a 2306 * specific instance. 2307 * 2308 * NB: Condition pkt_path_instance reference on proper allocation. 2309 */ 2310 if ((vpkt->vpkt_tgt_pkt->pkt_flags & FLAG_PKT_PATH_INSTANCE) && 2311 scsi_pkt_allocated_correctly(vpkt->vpkt_tgt_pkt)) { 2312 path_instance = vpkt->vpkt_tgt_pkt->pkt_path_instance; 2313 } 2314 2315 /* 2316 * If reservation is active bind the transport directly to the pip 2317 * with the reservation. 2318 */ 2319 if (vpkt->vpkt_hba_pkt == NULL) { 2320 if (vlun->svl_flags & VLUN_RESERVE_ACTIVE_FLG) { 2321 if (MDI_PI_IS_ONLINE(vlun->svl_resrv_pip)) { 2322 pip = vlun->svl_resrv_pip; 2323 mdi_hold_path(pip); 2324 vlun->svl_waiting_for_activepath = 0; 2325 rval = MDI_SUCCESS; 2326 goto bind_path; 2327 } else { 2328 if (pgr_sema_held) { 2329 sema_v(&vlun->svl_pgr_sema); 2330 } 2331 return (TRAN_BUSY); 2332 } 2333 } 2334 try_again: 2335 rval = mdi_select_path(cdip, vpkt->vpkt_tgt_init_bp, 2336 path_instance ? MDI_SELECT_PATH_INSTANCE : 0, 2337 (void *)(intptr_t)path_instance, &pip); 2338 if (rval == MDI_BUSY) { 2339 if (pgr_sema_held) { 2340 sema_v(&vlun->svl_pgr_sema); 2341 } 2342 return (TRAN_BUSY); 2343 } else if (rval == MDI_DEVI_ONLINING) { 2344 /* 2345 * if we are here then we are in the midst of 2346 * an attach/probe of the client device. 2347 * We attempt to bind to ONLINE path if available, 2348 * else it is OK to bind to a STANDBY path (instead 2349 * of triggering a failover) because IO associated 2350 * with attach/probe (eg. INQUIRY, block 0 read) 2351 * are completed by targets even on passive paths 2352 * If no ONLINE paths available, it is important 2353 * to set svl_waiting_for_activepath for two 2354 * reasons: (1) avoid sense analysis in the 2355 * "external failure detection" codepath in 2356 * vhci_intr(). Failure to do so will result in 2357 * infinite loop (unless an ONLINE path becomes 2358 * available at some point) (2) avoid 2359 * unnecessary failover (see "---Waiting For Active 2360 * Path---" comment below). 2361 */ 2362 VHCI_DEBUG(1, (CE_NOTE, NULL, "!%p in onlining " 2363 "state\n", (void *)cdip)); 2364 pip = NULL; 2365 rval = mdi_select_path(cdip, vpkt->vpkt_tgt_init_bp, 2366 mps_flag, NULL, &pip); 2367 if ((rval != MDI_SUCCESS) || (pip == NULL)) { 2368 if (vlun->svl_waiting_for_activepath == 0) { 2369 vlun->svl_waiting_for_activepath = 1; 2370 vlun->svl_wfa_time = gethrtime(); 2371 } 2372 mps_flag |= MDI_SELECT_STANDBY_PATH; 2373 rval = mdi_select_path(cdip, 2374 vpkt->vpkt_tgt_init_bp, 2375 mps_flag, NULL, &pip); 2376 if ((rval != MDI_SUCCESS) || (pip == NULL)) { 2377 if (pgr_sema_held) { 2378 sema_v(&vlun->svl_pgr_sema); 2379 } 2380 return (TRAN_FATAL_ERROR); 2381 } 2382 goto bind_path; 2383 } 2384 } else if ((rval == MDI_FAILURE) || 2385 ((rval == MDI_NOPATH) && (path_instance))) { 2386 if (pgr_sema_held) { 2387 sema_v(&vlun->svl_pgr_sema); 2388 } 2389 return (TRAN_FATAL_ERROR); 2390 } 2391 2392 if ((pip == NULL) || (rval == MDI_NOPATH)) { 2393 while (vlun->svl_waiting_for_activepath) { 2394 /* 2395 * ---Waiting For Active Path--- 2396 * This device was discovered across a 2397 * passive path; lets wait for a little 2398 * bit, hopefully an active path will 2399 * show up obviating the need for a 2400 * failover 2401 */ 2402 if ((gethrtime() - vlun->svl_wfa_time) >= 2403 (60 * NANOSEC)) { 2404 vlun->svl_waiting_for_activepath = 0; 2405 } else { 2406 drv_usecwait(1000); 2407 if (vlun->svl_waiting_for_activepath 2408 == 0) { 2409 /* 2410 * an active path has come 2411 * online! 2412 */ 2413 goto try_again; 2414 } 2415 } 2416 } 2417 VHCI_HOLD_LUN(vlun, VH_NOSLEEP, held); 2418 if (!held) { 2419 VHCI_DEBUG(4, (CE_NOTE, NULL, 2420 "!Lun not held\n")); 2421 if (pgr_sema_held) { 2422 sema_v(&vlun->svl_pgr_sema); 2423 } 2424 return (TRAN_BUSY); 2425 } 2426 /* 2427 * now that the LUN is stable, one last check 2428 * to make sure no other changes sneaked in 2429 * (like a path coming online or a 2430 * failover initiated by another thread) 2431 */ 2432 pip = NULL; 2433 rval = mdi_select_path(cdip, vpkt->vpkt_tgt_init_bp, 2434 0, NULL, &pip); 2435 if (pip != NULL) { 2436 VHCI_RELEASE_LUN(vlun); 2437 vlun->svl_waiting_for_activepath = 0; 2438 goto bind_path; 2439 } 2440 2441 /* 2442 * Check if there is an ONLINE path OR a STANDBY path 2443 * available. If none is available, do not attempt 2444 * to do a failover, just return a fatal error at this 2445 * point. 2446 */ 2447 npip = NULL; 2448 rval = mdi_select_path(cdip, NULL, 2449 (MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH), 2450 NULL, &npip); 2451 if ((npip == NULL) || (rval != MDI_SUCCESS)) { 2452 /* 2453 * No paths available, jus return FATAL error. 2454 */ 2455 VHCI_RELEASE_LUN(vlun); 2456 if (pgr_sema_held) { 2457 sema_v(&vlun->svl_pgr_sema); 2458 } 2459 return (TRAN_FATAL_ERROR); 2460 } 2461 mdi_rele_path(npip); 2462 if (!(vpkt->vpkt_state & VHCI_PKT_IN_FAILOVER)) { 2463 VHCI_DEBUG(1, (CE_NOTE, NULL, "!invoking " 2464 "mdi_failover\n")); 2465 rval = mdi_failover(vhci->vhci_dip, cdip, 2466 MDI_FAILOVER_ASYNC); 2467 } else { 2468 rval = vlun->svl_failover_status; 2469 } 2470 if (rval == MDI_FAILURE) { 2471 VHCI_RELEASE_LUN(vlun); 2472 if (pgr_sema_held) { 2473 sema_v(&vlun->svl_pgr_sema); 2474 } 2475 return (TRAN_FATAL_ERROR); 2476 } else if (rval == MDI_BUSY) { 2477 VHCI_RELEASE_LUN(vlun); 2478 if (pgr_sema_held) { 2479 sema_v(&vlun->svl_pgr_sema); 2480 } 2481 return (TRAN_BUSY); 2482 } else { 2483 if (pgr_sema_held) { 2484 sema_v(&vlun->svl_pgr_sema); 2485 } 2486 vpkt->vpkt_state |= VHCI_PKT_IN_FAILOVER; 2487 return (TRAN_BUSY); 2488 } 2489 } 2490 vlun->svl_waiting_for_activepath = 0; 2491 bind_path: 2492 vpkt->vpkt_path = pip; 2493 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(pip); 2494 ASSERT(svp != NULL); 2495 2496 psd = svp->svp_psd; 2497 ASSERT(psd != NULL); 2498 address = &psd->sd_address; 2499 } else { 2500 pkt = vpkt->vpkt_hba_pkt; 2501 address = &pkt->pkt_address; 2502 } 2503 2504 /* Verify match of specified path_instance and selected path_instance */ 2505 ASSERT((path_instance == 0) || 2506 (path_instance == mdi_pi_get_path_instance(vpkt->vpkt_path))); 2507 2508 /* 2509 * For PKT_PARTIAL_DMA case, call pHCI's scsi_init_pkt whenever 2510 * target driver calls vhci_scsi_init_pkt. 2511 */ 2512 if ((vpkt->vpkt_flags & CFLAG_DMA_PARTIAL) && 2513 vpkt->vpkt_path && vpkt->vpkt_hba_pkt) { 2514 VHCI_DEBUG(4, (CE_NOTE, NULL, 2515 "vhci_bind_transport: PKT_PARTIAL_DMA " 2516 "vpkt 0x%p, path 0x%p hba_pkt 0x%p\n", 2517 (void *)vpkt, (void *)vpkt->vpkt_path, (void *)pkt)); 2518 pkt = vpkt->vpkt_hba_pkt; 2519 address = &pkt->pkt_address; 2520 } 2521 2522 if (pkt == NULL || (vpkt->vpkt_flags & CFLAG_DMA_PARTIAL)) { 2523 pkt = scsi_init_pkt(address, pkt, 2524 vpkt->vpkt_tgt_init_bp, vpkt->vpkt_tgt_init_cdblen, 2525 vpkt->vpkt_tgt_init_scblen, 0, flags, func, NULL); 2526 2527 if (pkt == NULL) { 2528 VHCI_DEBUG(4, (CE_NOTE, NULL, 2529 "!bind transport: 0x%p 0x%p 0x%p\n", 2530 (void *)vhci, (void *)psd, (void *)vpkt)); 2531 if ((vpkt->vpkt_hba_pkt == NULL) && vpkt->vpkt_path) { 2532 MDI_PI_ERRSTAT(vpkt->vpkt_path, 2533 MDI_PI_TRANSERR); 2534 mdi_rele_path(vpkt->vpkt_path); 2535 vpkt->vpkt_path = NULL; 2536 } 2537 if (pgr_sema_held) { 2538 sema_v(&vlun->svl_pgr_sema); 2539 } 2540 /* 2541 * Consider it a fatal error if b_error is 2542 * set as a result of DMA binding failure 2543 * vs. a condition of being temporarily out of 2544 * some resource 2545 */ 2546 if (vpkt->vpkt_tgt_init_bp == NULL || 2547 geterror(vpkt->vpkt_tgt_init_bp)) 2548 return (TRAN_FATAL_ERROR); 2549 else 2550 return (TRAN_BUSY); 2551 } 2552 } 2553 2554 pkt->pkt_private = vpkt; 2555 vpkt->vpkt_hba_pkt = pkt; 2556 return (TRAN_ACCEPT); 2557 } 2558 2559 2560 /*PRINTFLIKE3*/ 2561 void 2562 vhci_log(int level, dev_info_t *dip, const char *fmt, ...) 2563 { 2564 char buf[256]; 2565 va_list ap; 2566 2567 va_start(ap, fmt); 2568 (void) vsprintf(buf, fmt, ap); 2569 va_end(ap); 2570 2571 scsi_log(dip, "scsi_vhci", level, buf); 2572 } 2573 2574 /* do a PGR out with the information we've saved away */ 2575 static int 2576 vhci_do_prout(scsi_vhci_priv_t *svp) 2577 { 2578 2579 struct scsi_pkt *new_pkt; 2580 struct buf *bp; 2581 scsi_vhci_lun_t *vlun = svp->svp_svl; 2582 int rval, retry, nr_retry, ua_retry; 2583 uint8_t *sns, skey; 2584 2585 bp = getrbuf(KM_SLEEP); 2586 bp->b_flags = B_WRITE; 2587 bp->b_resid = 0; 2588 bp->b_un.b_addr = (caddr_t)&vlun->svl_prout; 2589 bp->b_bcount = vlun->svl_bcount; 2590 2591 VHCI_INCR_PATH_CMDCOUNT(svp); 2592 2593 new_pkt = scsi_init_pkt(&svp->svp_psd->sd_address, NULL, bp, 2594 CDB_GROUP1, sizeof (struct scsi_arq_status), 0, 0, 2595 SLEEP_FUNC, NULL); 2596 if (new_pkt == NULL) { 2597 VHCI_DECR_PATH_CMDCOUNT(svp); 2598 freerbuf(bp); 2599 cmn_err(CE_WARN, "!vhci_do_prout: scsi_init_pkt failed"); 2600 return (0); 2601 } 2602 mutex_enter(&vlun->svl_mutex); 2603 bp->b_un.b_addr = (caddr_t)&vlun->svl_prout; 2604 bp->b_bcount = vlun->svl_bcount; 2605 bcopy(vlun->svl_cdb, new_pkt->pkt_cdbp, 2606 sizeof (vlun->svl_cdb)); 2607 new_pkt->pkt_time = vlun->svl_time; 2608 mutex_exit(&vlun->svl_mutex); 2609 new_pkt->pkt_flags = FLAG_NOINTR; 2610 2611 ua_retry = nr_retry = retry = 0; 2612 again: 2613 rval = vhci_do_scsi_cmd(new_pkt); 2614 if (rval != 1) { 2615 if ((new_pkt->pkt_reason == CMD_CMPLT) && 2616 (SCBP_C(new_pkt) == STATUS_CHECK) && 2617 (new_pkt->pkt_state & STATE_ARQ_DONE)) { 2618 sns = (uint8_t *) 2619 &(((struct scsi_arq_status *)(uintptr_t) 2620 (new_pkt->pkt_scbp))->sts_sensedata); 2621 skey = scsi_sense_key(sns); 2622 if ((skey == KEY_UNIT_ATTENTION) || 2623 (skey == KEY_NOT_READY)) { 2624 int max_retry; 2625 struct scsi_failover_ops *fops; 2626 fops = vlun->svl_fops; 2627 rval = fops->sfo_analyze_sense(svp->svp_psd, 2628 sns, vlun->svl_fops_ctpriv); 2629 if (rval == SCSI_SENSE_NOT_READY) { 2630 max_retry = vhci_prout_not_ready_retry; 2631 retry = nr_retry++; 2632 delay(1 * drv_usectohz(1000000)); 2633 } else { 2634 /* chk for state change and update */ 2635 if (rval == SCSI_SENSE_STATE_CHANGED) { 2636 int held; 2637 VHCI_HOLD_LUN(vlun, 2638 VH_NOSLEEP, held); 2639 if (!held) { 2640 rval = TRAN_BUSY; 2641 } else { 2642 /* chk for alua first */ 2643 vhci_update_pathstates( 2644 (void *)vlun); 2645 } 2646 } 2647 retry = ua_retry++; 2648 max_retry = VHCI_MAX_PGR_RETRIES; 2649 } 2650 if (retry < max_retry) { 2651 VHCI_DEBUG(4, (CE_WARN, NULL, 2652 "!vhci_do_prout retry 0x%x " 2653 "(0x%x 0x%x 0x%x)", 2654 SCBP_C(new_pkt), 2655 new_pkt->pkt_cdbp[0], 2656 new_pkt->pkt_cdbp[1], 2657 new_pkt->pkt_cdbp[2])); 2658 goto again; 2659 } 2660 rval = 0; 2661 VHCI_DEBUG(4, (CE_WARN, NULL, 2662 "!vhci_do_prout 0x%x " 2663 "(0x%x 0x%x 0x%x)", 2664 SCBP_C(new_pkt), 2665 new_pkt->pkt_cdbp[0], 2666 new_pkt->pkt_cdbp[1], 2667 new_pkt->pkt_cdbp[2])); 2668 } else if (skey == KEY_ILLEGAL_REQUEST) 2669 rval = VHCI_PGR_ILLEGALOP; 2670 } 2671 } else { 2672 rval = 1; 2673 } 2674 scsi_destroy_pkt(new_pkt); 2675 VHCI_DECR_PATH_CMDCOUNT(svp); 2676 freerbuf(bp); 2677 return (rval); 2678 } 2679 2680 static void 2681 vhci_run_cmd(void *arg) 2682 { 2683 struct scsi_pkt *pkt = (struct scsi_pkt *)arg; 2684 struct scsi_pkt *tpkt; 2685 scsi_vhci_priv_t *svp; 2686 mdi_pathinfo_t *pip, *npip; 2687 scsi_vhci_lun_t *vlun; 2688 dev_info_t *cdip; 2689 scsi_vhci_priv_t *nsvp; 2690 int fail = 0; 2691 int rval; 2692 struct vhci_pkt *vpkt; 2693 uchar_t cdb_1; 2694 vhci_prout_t *prout; 2695 2696 vpkt = (struct vhci_pkt *)pkt->pkt_private; 2697 tpkt = vpkt->vpkt_tgt_pkt; 2698 pip = vpkt->vpkt_path; 2699 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(pip); 2700 if (svp == NULL) { 2701 tpkt->pkt_reason = CMD_TRAN_ERR; 2702 tpkt->pkt_statistics = STAT_ABORTED; 2703 goto done; 2704 } 2705 vlun = svp->svp_svl; 2706 prout = &vlun->svl_prout; 2707 if (SCBP_C(pkt) != STATUS_GOOD) 2708 fail++; 2709 cdip = vlun->svl_dip; 2710 pip = npip = NULL; 2711 rval = mdi_select_path(cdip, NULL, 2712 MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH, NULL, &npip); 2713 if ((rval != MDI_SUCCESS) || (npip == NULL)) { 2714 VHCI_DEBUG(4, (CE_NOTE, NULL, 2715 "vhci_run_cmd: no path! 0x%p\n", (void *)svp)); 2716 tpkt->pkt_reason = CMD_TRAN_ERR; 2717 tpkt->pkt_statistics = STAT_ABORTED; 2718 goto done; 2719 } 2720 2721 cdb_1 = vlun->svl_cdb[1]; 2722 vlun->svl_cdb[1] &= 0xe0; 2723 vlun->svl_cdb[1] |= VHCI_PROUT_R_AND_IGNORE; 2724 2725 do { 2726 nsvp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(npip); 2727 if (nsvp == NULL) { 2728 VHCI_DEBUG(4, (CE_NOTE, NULL, 2729 "vhci_run_cmd: no " 2730 "client priv! 0x%p offlined?\n", 2731 (void *)npip)); 2732 goto next_path; 2733 } 2734 if (vlun->svl_first_path == npip) { 2735 goto next_path; 2736 } else { 2737 if (vhci_do_prout(nsvp) != 1) 2738 fail++; 2739 } 2740 next_path: 2741 pip = npip; 2742 rval = mdi_select_path(cdip, NULL, 2743 MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH, 2744 pip, &npip); 2745 mdi_rele_path(pip); 2746 } while ((rval == MDI_SUCCESS) && (npip != NULL)); 2747 2748 vlun->svl_cdb[1] = cdb_1; 2749 2750 if (fail) { 2751 VHCI_DEBUG(4, (CE_WARN, NULL, "%s%d: key registration failed, " 2752 "couldn't be replicated on all paths", 2753 ddi_driver_name(cdip), ddi_get_instance(cdip))); 2754 vhci_print_prout_keys(vlun, "vhci_run_cmd: "); 2755 2756 if (SCBP_C(pkt) != STATUS_GOOD) { 2757 tpkt->pkt_reason = CMD_TRAN_ERR; 2758 tpkt->pkt_statistics = STAT_ABORTED; 2759 } 2760 } else { 2761 vlun->svl_pgr_active = 1; 2762 vhci_print_prout_keys(vlun, "vhci_run_cmd: before bcopy:"); 2763 2764 bcopy((const void *)prout->service_key, 2765 (void *)prout->active_service_key, MHIOC_RESV_KEY_SIZE); 2766 bcopy((const void *)prout->res_key, 2767 (void *)prout->active_res_key, MHIOC_RESV_KEY_SIZE); 2768 2769 vhci_print_prout_keys(vlun, "vhci_run_cmd: after bcopy:"); 2770 } 2771 done: 2772 if (SCBP_C(pkt) == STATUS_GOOD) 2773 vlun->svl_first_path = NULL; 2774 2775 if (svp) 2776 VHCI_DECR_PATH_CMDCOUNT(svp); 2777 2778 if ((vpkt->vpkt_flags & CFLAG_DMA_PARTIAL) == 0) { 2779 scsi_destroy_pkt(pkt); 2780 vpkt->vpkt_hba_pkt = NULL; 2781 if (vpkt->vpkt_path) { 2782 mdi_rele_path(vpkt->vpkt_path); 2783 vpkt->vpkt_path = NULL; 2784 } 2785 } 2786 2787 sema_v(&vlun->svl_pgr_sema); 2788 /* 2789 * The PROUT commands are not included in the automatic retry 2790 * mechanism, therefore, vpkt_org_vpkt should never be set here. 2791 */ 2792 ASSERT(vpkt->vpkt_org_vpkt == NULL); 2793 scsi_hba_pkt_comp(tpkt); 2794 } 2795 2796 /* 2797 * Get the keys registered with this target. Since we will have 2798 * registered the same key with multiple initiators, strip out 2799 * any duplicate keys. 2800 * 2801 * The pointers which will be used to filter the registered keys from 2802 * the device will be stored in filter_prin and filter_pkt. If the 2803 * allocation length of the buffer was sufficient for the number of 2804 * parameter data bytes available to be returned by the device then the 2805 * key filtering will use the keylist returned from the original 2806 * request. If the allocation length of the buffer was not sufficient, 2807 * then the filtering will use the keylist returned from the request 2808 * that is resent below. 2809 * 2810 * If the device returns an additional length field that is greater than 2811 * the allocation length of the buffer, then allocate a new buffer which 2812 * can accommodate the number of parameter data bytes available to be 2813 * returned. Resend the scsi PRIN command, filter out the duplicate 2814 * keys and return as many of the unique keys found that was originally 2815 * requested and set the additional length field equal to the data bytes 2816 * of unique reservation keys available to be returned. 2817 * 2818 * If the device returns an additional length field that is less than or 2819 * equal to the allocation length of the buffer, then all the available 2820 * keys registered were returned by the device. Filter out the 2821 * duplicate keys and return all of the unique keys found and set the 2822 * additional length field equal to the data bytes of the reservation 2823 * keys to be returned. 2824 */ 2825 2826 #define VHCI_PRIN_HEADER_SZ (sizeof (prin->length) + sizeof (prin->generation)) 2827 2828 static int 2829 vhci_do_prin(struct vhci_pkt **intr_vpkt) 2830 { 2831 scsi_vhci_priv_t *svp; 2832 struct vhci_pkt *vpkt = *intr_vpkt; 2833 vhci_prin_readkeys_t *prin; 2834 scsi_vhci_lun_t *vlun; 2835 struct scsi_vhci *vhci = ADDR2VHCI(&vpkt->vpkt_tgt_pkt->pkt_address); 2836 2837 struct buf *new_bp = NULL; 2838 struct scsi_pkt *new_pkt = NULL; 2839 struct vhci_pkt *new_vpkt = NULL; 2840 uint32_t needed_length; 2841 int rval = VHCI_CMD_CMPLT; 2842 uint32_t prin_length = 0; 2843 uint32_t svl_prin_length = 0; 2844 2845 ASSERT(vpkt->vpkt_path); 2846 svp = mdi_pi_get_vhci_private(vpkt->vpkt_path); 2847 ASSERT(svp); 2848 vlun = svp->svp_svl; 2849 ASSERT(vlun); 2850 2851 /* 2852 * If the caller only asked for an amount of data that would not 2853 * be enough to include any key data it is likely that they will 2854 * send the next command with a buffer size based on the information 2855 * from this header. Doing recovery on this would be a duplication 2856 * of efforts. 2857 */ 2858 if (vpkt->vpkt_tgt_init_bp->b_bcount <= VHCI_PRIN_HEADER_SZ) { 2859 rval = VHCI_CMD_CMPLT; 2860 goto exit; 2861 } 2862 2863 if (vpkt->vpkt_org_vpkt == NULL) { 2864 /* 2865 * Can fail as sleep is not allowed. 2866 */ 2867 prin = (vhci_prin_readkeys_t *) 2868 bp_mapin_common(vpkt->vpkt_tgt_init_bp, VM_NOSLEEP); 2869 } else { 2870 /* 2871 * The retry buf doesn't need to be mapped in. 2872 */ 2873 prin = (vhci_prin_readkeys_t *) 2874 vpkt->vpkt_tgt_init_bp->b_un.b_daddr; 2875 } 2876 2877 if (prin == NULL) { 2878 VHCI_DEBUG(5, (CE_WARN, NULL, 2879 "vhci_do_prin: bp_mapin_common failed.")); 2880 rval = VHCI_CMD_ERROR; 2881 goto fail; 2882 } 2883 2884 prin_length = BE_32(prin->length); 2885 2886 /* 2887 * According to SPC-3r22, sec 4.3.4.6: "If the amount of 2888 * information to be transferred exceeds the maximum value 2889 * that the ALLOCATION LENGTH field is capable of specifying, 2890 * the device server shall...terminate the command with CHECK 2891 * CONDITION status". The ALLOCATION LENGTH field of the 2892 * PERSISTENT RESERVE IN command is 2 bytes. We should never 2893 * get here with an ADDITIONAL LENGTH greater than 0xFFFF 2894 * so if we do, then it is an error! 2895 */ 2896 2897 2898 if ((prin_length + VHCI_PRIN_HEADER_SZ) > 0xFFFF) { 2899 VHCI_DEBUG(5, (CE_NOTE, NULL, 2900 "vhci_do_prin: Device returned invalid " 2901 "length 0x%x\n", prin_length)); 2902 rval = VHCI_CMD_ERROR; 2903 goto fail; 2904 } 2905 needed_length = prin_length + VHCI_PRIN_HEADER_SZ; 2906 2907 /* 2908 * If prin->length is greater than the byte count allocated in the 2909 * original buffer, then resend the request with enough buffer 2910 * allocated to get all of the available registered keys. 2911 */ 2912 if ((vpkt->vpkt_tgt_init_bp->b_bcount < needed_length) && 2913 (vpkt->vpkt_org_vpkt == NULL)) { 2914 2915 new_pkt = vhci_create_retry_pkt(vpkt); 2916 if (new_pkt == NULL) { 2917 rval = VHCI_CMD_ERROR; 2918 goto fail; 2919 } 2920 new_vpkt = TGTPKT2VHCIPKT(new_pkt); 2921 2922 /* 2923 * This is the buf with buffer pointer 2924 * where the prin readkeys will be 2925 * returned from the device 2926 */ 2927 new_bp = scsi_alloc_consistent_buf(&svp->svp_psd->sd_address, 2928 NULL, needed_length, B_READ, NULL_FUNC, NULL); 2929 if ((new_bp == NULL) || (new_bp->b_un.b_addr == NULL)) { 2930 if (new_bp) { 2931 scsi_free_consistent_buf(new_bp); 2932 } 2933 vhci_scsi_destroy_pkt(&new_pkt->pkt_address, new_pkt); 2934 rval = VHCI_CMD_ERROR; 2935 goto fail; 2936 } 2937 new_bp->b_bcount = needed_length; 2938 new_pkt->pkt_cdbp[7] = (uchar_t)(needed_length >> 8); 2939 new_pkt->pkt_cdbp[8] = (uchar_t)needed_length; 2940 2941 rval = VHCI_CMD_RETRY; 2942 2943 new_vpkt->vpkt_tgt_init_bp = new_bp; 2944 } 2945 2946 if (rval == VHCI_CMD_RETRY) { 2947 2948 /* 2949 * There were more keys then the original request asked for. 2950 */ 2951 mdi_pathinfo_t *path_holder = vpkt->vpkt_path; 2952 2953 /* 2954 * Release the old path because it does not matter which path 2955 * this command is sent down. This allows the normal bind 2956 * transport mechanism to be used. 2957 */ 2958 if (vpkt->vpkt_path != NULL) { 2959 mdi_rele_path(vpkt->vpkt_path); 2960 vpkt->vpkt_path = NULL; 2961 } 2962 2963 /* 2964 * Dispatch the retry command 2965 */ 2966 if (taskq_dispatch(vhci->vhci_taskq, vhci_dispatch_scsi_start, 2967 (void *) new_vpkt, KM_NOSLEEP) == TASKQID_INVALID) { 2968 if (path_holder) { 2969 vpkt->vpkt_path = path_holder; 2970 mdi_hold_path(path_holder); 2971 } 2972 scsi_free_consistent_buf(new_bp); 2973 vhci_scsi_destroy_pkt(&new_pkt->pkt_address, new_pkt); 2974 rval = VHCI_CMD_ERROR; 2975 goto fail; 2976 } 2977 2978 /* 2979 * If we return VHCI_CMD_RETRY, that means the caller 2980 * is going to bail and wait for the reissued command 2981 * to complete. In that case, we need to decrement 2982 * the path command count right now. In any other 2983 * case, it'll be decremented by the caller. 2984 */ 2985 VHCI_DECR_PATH_CMDCOUNT(svp); 2986 goto exit; 2987 2988 } 2989 2990 if (rval == VHCI_CMD_CMPLT) { 2991 /* 2992 * The original request got all of the keys or the recovery 2993 * packet returns. 2994 */ 2995 int new; 2996 int old; 2997 int num_keys = prin_length / MHIOC_RESV_KEY_SIZE; 2998 2999 VHCI_DEBUG(4, (CE_NOTE, NULL, "vhci_do_prin: %d keys read\n", 3000 num_keys)); 3001 3002 #ifdef DEBUG 3003 VHCI_DEBUG(5, (CE_NOTE, NULL, "vhci_do_prin: from storage\n")); 3004 if (vhci_debug == 5) 3005 vhci_print_prin_keys(prin, num_keys); 3006 VHCI_DEBUG(5, (CE_NOTE, NULL, 3007 "vhci_do_prin: MPxIO old keys:\n")); 3008 if (vhci_debug == 5) 3009 vhci_print_prin_keys(&vlun->svl_prin, num_keys); 3010 #endif 3011 3012 /* 3013 * Filter out all duplicate keys returned from the device 3014 * We know that we use a different key for every host, so we 3015 * can simply strip out duplicates. Otherwise we would need to 3016 * do more bookkeeping to figure out which keys to strip out. 3017 */ 3018 3019 new = 0; 3020 3021 /* 3022 * If we got at least 1 key copy it. 3023 */ 3024 if (num_keys > 0) { 3025 vlun->svl_prin.keylist[0] = prin->keylist[0]; 3026 new++; 3027 } 3028 3029 /* 3030 * find next unique key. 3031 */ 3032 for (old = 1; old < num_keys; old++) { 3033 int j; 3034 int match = 0; 3035 3036 if (new >= VHCI_NUM_RESV_KEYS) 3037 break; 3038 for (j = 0; j < new; j++) { 3039 if (bcmp(&prin->keylist[old], 3040 &vlun->svl_prin.keylist[j], 3041 sizeof (mhioc_resv_key_t)) == 0) { 3042 match = 1; 3043 break; 3044 } 3045 } 3046 if (!match) { 3047 vlun->svl_prin.keylist[new] = 3048 prin->keylist[old]; 3049 new++; 3050 } 3051 } 3052 3053 /* Stored Big Endian */ 3054 vlun->svl_prin.generation = prin->generation; 3055 svl_prin_length = new * sizeof (mhioc_resv_key_t); 3056 /* Stored Big Endian */ 3057 vlun->svl_prin.length = BE_32(svl_prin_length); 3058 svl_prin_length += VHCI_PRIN_HEADER_SZ; 3059 3060 /* 3061 * If we arrived at this point after issuing a retry, make sure 3062 * that we put everything back the way it originally was so 3063 * that the target driver can complete the command correctly. 3064 */ 3065 if (vpkt->vpkt_org_vpkt != NULL) { 3066 new_bp = vpkt->vpkt_tgt_init_bp; 3067 3068 scsi_free_consistent_buf(new_bp); 3069 3070 vpkt = vhci_sync_retry_pkt(vpkt); 3071 *intr_vpkt = vpkt; 3072 3073 /* 3074 * Make sure the original buffer is mapped into kernel 3075 * space before we try to copy the filtered keys into 3076 * it. 3077 */ 3078 prin = (vhci_prin_readkeys_t *)bp_mapin_common( 3079 vpkt->vpkt_tgt_init_bp, VM_NOSLEEP); 3080 } 3081 3082 /* 3083 * Now copy the desired number of prin keys into the original 3084 * target buffer. 3085 */ 3086 if (svl_prin_length <= vpkt->vpkt_tgt_init_bp->b_bcount) { 3087 /* 3088 * It is safe to return all of the available unique 3089 * keys 3090 */ 3091 bcopy(&vlun->svl_prin, prin, svl_prin_length); 3092 } else { 3093 /* 3094 * Not all of the available keys were requested by the 3095 * original command. 3096 */ 3097 bcopy(&vlun->svl_prin, prin, 3098 vpkt->vpkt_tgt_init_bp->b_bcount); 3099 } 3100 #ifdef DEBUG 3101 VHCI_DEBUG(5, (CE_NOTE, NULL, 3102 "vhci_do_prin: To Application:\n")); 3103 if (vhci_debug == 5) 3104 vhci_print_prin_keys(prin, new); 3105 VHCI_DEBUG(5, (CE_NOTE, NULL, 3106 "vhci_do_prin: MPxIO new keys:\n")); 3107 if (vhci_debug == 5) 3108 vhci_print_prin_keys(&vlun->svl_prin, new); 3109 #endif 3110 } 3111 fail: 3112 if (rval == VHCI_CMD_ERROR) { 3113 /* 3114 * If we arrived at this point after issuing a 3115 * retry, make sure that we put everything back 3116 * the way it originally was so that ssd can 3117 * complete the command correctly. 3118 */ 3119 3120 if (vpkt->vpkt_org_vpkt != NULL) { 3121 new_bp = vpkt->vpkt_tgt_init_bp; 3122 if (new_bp != NULL) { 3123 scsi_free_consistent_buf(new_bp); 3124 } 3125 3126 new_vpkt = vpkt; 3127 vpkt = vpkt->vpkt_org_vpkt; 3128 3129 vhci_scsi_destroy_pkt(&svp->svp_psd->sd_address, 3130 new_vpkt->vpkt_tgt_pkt); 3131 } 3132 3133 /* 3134 * Mark this command completion as having an error so that 3135 * ssd will retry the command. 3136 */ 3137 3138 vpkt->vpkt_tgt_pkt->pkt_reason = CMD_ABORTED; 3139 vpkt->vpkt_tgt_pkt->pkt_statistics |= STAT_ABORTED; 3140 3141 rval = VHCI_CMD_CMPLT; 3142 } 3143 exit: 3144 /* 3145 * Make sure that the semaphore is only released once. 3146 */ 3147 if (rval == VHCI_CMD_CMPLT) { 3148 sema_v(&vlun->svl_pgr_sema); 3149 } 3150 3151 return (rval); 3152 } 3153 3154 static void 3155 vhci_intr(struct scsi_pkt *pkt) 3156 { 3157 struct vhci_pkt *vpkt = (struct vhci_pkt *)pkt->pkt_private; 3158 struct scsi_pkt *tpkt; 3159 scsi_vhci_priv_t *svp; 3160 scsi_vhci_lun_t *vlun; 3161 int rval, held; 3162 struct scsi_failover_ops *fops; 3163 uint8_t *sns, skey, asc, ascq; 3164 mdi_pathinfo_t *lpath; 3165 static char *timeout_err = "Command Timeout"; 3166 static char *parity_err = "Parity Error"; 3167 char *err_str = NULL; 3168 dev_info_t *vdip, *cdip; 3169 char *cpath; 3170 3171 ASSERT(vpkt != NULL); 3172 tpkt = vpkt->vpkt_tgt_pkt; 3173 ASSERT(tpkt != NULL); 3174 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(vpkt->vpkt_path); 3175 ASSERT(svp != NULL); 3176 vlun = svp->svp_svl; 3177 ASSERT(vlun != NULL); 3178 lpath = vpkt->vpkt_path; 3179 3180 /* 3181 * sync up the target driver's pkt with the pkt that 3182 * we actually used 3183 */ 3184 *(tpkt->pkt_scbp) = *(pkt->pkt_scbp); 3185 tpkt->pkt_resid = pkt->pkt_resid; 3186 tpkt->pkt_state = pkt->pkt_state; 3187 tpkt->pkt_statistics = pkt->pkt_statistics; 3188 tpkt->pkt_reason = pkt->pkt_reason; 3189 3190 /* Return path_instance information back to the target driver. */ 3191 if (scsi_pkt_allocated_correctly(tpkt)) { 3192 if (scsi_pkt_allocated_correctly(pkt)) { 3193 /* 3194 * If both packets were correctly allocated, 3195 * return path returned by pHCI. 3196 */ 3197 tpkt->pkt_path_instance = pkt->pkt_path_instance; 3198 } else { 3199 /* Otherwise return path of pHCI we used */ 3200 tpkt->pkt_path_instance = 3201 mdi_pi_get_path_instance(lpath); 3202 } 3203 } 3204 3205 if (pkt->pkt_cdbp[0] == SCMD_PROUT && 3206 ((pkt->pkt_cdbp[1] & 0x1f) == VHCI_PROUT_REGISTER) || 3207 ((pkt->pkt_cdbp[1] & 0x1f) == VHCI_PROUT_R_AND_IGNORE)) { 3208 if ((SCBP_C(pkt) != STATUS_GOOD) || 3209 (pkt->pkt_reason != CMD_CMPLT)) { 3210 sema_v(&vlun->svl_pgr_sema); 3211 } 3212 } else if (pkt->pkt_cdbp[0] == SCMD_PRIN) { 3213 if (pkt->pkt_reason != CMD_CMPLT || 3214 (SCBP_C(pkt) != STATUS_GOOD)) { 3215 sema_v(&vlun->svl_pgr_sema); 3216 } 3217 } 3218 3219 switch (pkt->pkt_reason) { 3220 case CMD_CMPLT: 3221 /* 3222 * cmd completed successfully, check for scsi errors 3223 */ 3224 switch (*(pkt->pkt_scbp)) { 3225 case STATUS_CHECK: 3226 if (pkt->pkt_state & STATE_ARQ_DONE) { 3227 sns = (uint8_t *) 3228 &(((struct scsi_arq_status *)(uintptr_t) 3229 (pkt->pkt_scbp))->sts_sensedata); 3230 skey = scsi_sense_key(sns); 3231 asc = scsi_sense_asc(sns); 3232 ascq = scsi_sense_ascq(sns); 3233 fops = vlun->svl_fops; 3234 ASSERT(fops != NULL); 3235 VHCI_DEBUG(4, (CE_NOTE, NULL, "vhci_intr: " 3236 "Received sns key %x esc %x escq %x\n", 3237 skey, asc, ascq)); 3238 3239 if (vlun->svl_waiting_for_activepath == 1) { 3240 /* 3241 * if we are here it means we are 3242 * in the midst of a probe/attach 3243 * through a passive path; this 3244 * case is exempt from sense analysis 3245 * for detection of ext. failover 3246 * because that would unnecessarily 3247 * increase attach time. 3248 */ 3249 bcopy(pkt->pkt_scbp, tpkt->pkt_scbp, 3250 vpkt->vpkt_tgt_init_scblen); 3251 break; 3252 } 3253 if (asc == VHCI_SCSI_PERR) { 3254 /* 3255 * parity error 3256 */ 3257 err_str = parity_err; 3258 bcopy(pkt->pkt_scbp, tpkt->pkt_scbp, 3259 vpkt->vpkt_tgt_init_scblen); 3260 break; 3261 } 3262 rval = fops->sfo_analyze_sense(svp->svp_psd, 3263 sns, vlun->svl_fops_ctpriv); 3264 if ((rval == SCSI_SENSE_NOFAILOVER) || 3265 (rval == SCSI_SENSE_UNKNOWN) || 3266 (rval == SCSI_SENSE_NOT_READY)) { 3267 bcopy(pkt->pkt_scbp, tpkt->pkt_scbp, 3268 vpkt->vpkt_tgt_init_scblen); 3269 break; 3270 } else if (rval == SCSI_SENSE_STATE_CHANGED) { 3271 struct scsi_vhci *vhci; 3272 vhci = ADDR2VHCI(&tpkt->pkt_address); 3273 VHCI_HOLD_LUN(vlun, VH_NOSLEEP, held); 3274 if (!held) { 3275 /* 3276 * looks like some other thread 3277 * has already detected this 3278 * condition 3279 */ 3280 tpkt->pkt_state &= 3281 ~STATE_ARQ_DONE; 3282 *(tpkt->pkt_scbp) = 3283 STATUS_BUSY; 3284 break; 3285 } 3286 (void) taskq_dispatch( 3287 vhci->vhci_update_pathstates_taskq, 3288 vhci_update_pathstates, 3289 (void *)vlun, KM_SLEEP); 3290 } else { 3291 /* 3292 * externally initiated failover 3293 * has occurred or is in progress 3294 */ 3295 VHCI_HOLD_LUN(vlun, VH_NOSLEEP, held); 3296 if (!held) { 3297 /* 3298 * looks like some other thread 3299 * has already detected this 3300 * condition 3301 */ 3302 tpkt->pkt_state &= 3303 ~STATE_ARQ_DONE; 3304 *(tpkt->pkt_scbp) = 3305 STATUS_BUSY; 3306 break; 3307 } else { 3308 rval = vhci_handle_ext_fo 3309 (pkt, rval); 3310 if (rval == BUSY_RETURN) { 3311 tpkt->pkt_state &= 3312 ~STATE_ARQ_DONE; 3313 *(tpkt->pkt_scbp) = 3314 STATUS_BUSY; 3315 break; 3316 } 3317 bcopy(pkt->pkt_scbp, 3318 tpkt->pkt_scbp, 3319 vpkt->vpkt_tgt_init_scblen); 3320 break; 3321 } 3322 } 3323 } 3324 break; 3325 3326 /* 3327 * If this is a good SCSI-II RELEASE cmd completion then restore 3328 * the load balancing policy and reset VLUN_RESERVE_ACTIVE_FLG. 3329 * If this is a good SCSI-II RESERVE cmd completion then set 3330 * VLUN_RESERVE_ACTIVE_FLG. 3331 */ 3332 case STATUS_GOOD: 3333 if ((pkt->pkt_cdbp[0] == SCMD_RELEASE) || 3334 (pkt->pkt_cdbp[0] == SCMD_RELEASE_G1)) { 3335 (void) mdi_set_lb_policy(vlun->svl_dip, 3336 vlun->svl_lb_policy_save); 3337 vlun->svl_flags &= ~VLUN_RESERVE_ACTIVE_FLG; 3338 VHCI_DEBUG(1, (CE_WARN, NULL, 3339 "!vhci_intr: vlun 0x%p release path 0x%p", 3340 (void *)vlun, (void *)vpkt->vpkt_path)); 3341 } 3342 3343 if ((pkt->pkt_cdbp[0] == SCMD_RESERVE) || 3344 (pkt->pkt_cdbp[0] == SCMD_RESERVE_G1)) { 3345 vlun->svl_flags |= VLUN_RESERVE_ACTIVE_FLG; 3346 vlun->svl_resrv_pip = vpkt->vpkt_path; 3347 VHCI_DEBUG(1, (CE_WARN, NULL, 3348 "!vhci_intr: vlun 0x%p reserved path 0x%p", 3349 (void *)vlun, (void *)vpkt->vpkt_path)); 3350 } 3351 break; 3352 3353 case STATUS_RESERVATION_CONFLICT: 3354 VHCI_DEBUG(1, (CE_WARN, NULL, 3355 "!vhci_intr: vlun 0x%p " 3356 "reserve conflict on path 0x%p", 3357 (void *)vlun, (void *)vpkt->vpkt_path)); 3358 /* FALLTHROUGH */ 3359 default: 3360 break; 3361 } 3362 3363 /* 3364 * Update I/O completion statistics for the path 3365 */ 3366 mdi_pi_kstat_iosupdate(vpkt->vpkt_path, vpkt->vpkt_tgt_init_bp); 3367 3368 /* 3369 * Command completed successfully, release the dma binding and 3370 * destroy the transport side of the packet. 3371 */ 3372 if ((pkt->pkt_cdbp[0] == SCMD_PROUT) && 3373 (((pkt->pkt_cdbp[1] & 0x1f) == VHCI_PROUT_REGISTER) || 3374 ((pkt->pkt_cdbp[1] & 0x1f) == VHCI_PROUT_R_AND_IGNORE))) { 3375 if (SCBP_C(pkt) == STATUS_GOOD) { 3376 ASSERT(vlun->svl_taskq); 3377 svp->svp_last_pkt_reason = pkt->pkt_reason; 3378 (void) taskq_dispatch(vlun->svl_taskq, 3379 vhci_run_cmd, pkt, KM_SLEEP); 3380 return; 3381 } 3382 } 3383 if ((SCBP_C(pkt) == STATUS_GOOD) && 3384 (pkt->pkt_cdbp[0] == SCMD_PRIN) && vpkt->vpkt_tgt_init_bp) { 3385 /* 3386 * If the action (value in byte 1 of the cdb) is zero, 3387 * we're reading keys, and that's the only condition 3388 * where we need to be concerned with filtering keys 3389 * and potential retries. Otherwise, we simply signal 3390 * the semaphore and move on. 3391 */ 3392 if (pkt->pkt_cdbp[1] == 0) { 3393 /* 3394 * If this is the completion of an internal 3395 * retry then we need to make sure that the 3396 * pkt and tpkt pointers are readjusted so 3397 * the calls to scsi_destroy_pkt and pkt_comp 3398 * below work * correctly. 3399 */ 3400 if (vpkt->vpkt_org_vpkt != NULL) { 3401 pkt = vpkt->vpkt_org_vpkt->vpkt_hba_pkt; 3402 tpkt = vpkt->vpkt_org_vpkt-> 3403 vpkt_tgt_pkt; 3404 3405 /* 3406 * If this command was issued through 3407 * the taskq then we need to clear 3408 * this flag for proper processing in 3409 * the case of a retry from the target 3410 * driver. 3411 */ 3412 vpkt->vpkt_state &= 3413 ~VHCI_PKT_THRU_TASKQ; 3414 } 3415 3416 /* 3417 * if vhci_do_prin returns VHCI_CMD_CMPLT then 3418 * vpkt will contain the address of the 3419 * original vpkt 3420 */ 3421 if (vhci_do_prin(&vpkt) == VHCI_CMD_RETRY) { 3422 /* 3423 * The command has been resent to get 3424 * all the keys from the device. Don't 3425 * complete the command with ssd until 3426 * the retry completes. 3427 */ 3428 return; 3429 } 3430 } else { 3431 sema_v(&vlun->svl_pgr_sema); 3432 } 3433 } 3434 3435 break; 3436 3437 case CMD_TIMEOUT: 3438 if ((pkt->pkt_statistics & 3439 (STAT_BUS_RESET | STAT_DEV_RESET | STAT_ABORTED)) == 0) { 3440 3441 VHCI_DEBUG(1, (CE_NOTE, NULL, 3442 "!scsi vhci timeout invoked\n")); 3443 3444 (void) vhci_recovery_reset(vlun, &pkt->pkt_address, 3445 FALSE, VHCI_DEPTH_ALL); 3446 } 3447 MDI_PI_ERRSTAT(lpath, MDI_PI_TRANSERR); 3448 tpkt->pkt_statistics |= STAT_ABORTED; 3449 err_str = timeout_err; 3450 break; 3451 3452 case CMD_TRAN_ERR: 3453 /* 3454 * This status is returned if the transport has sent the cmd 3455 * down the link to the target and then some error occurs. 3456 * In case of SCSI-II RESERVE cmd, we don't know if the 3457 * reservation been accepted by the target or not, so we need 3458 * to clear the reservation. 3459 */ 3460 if ((pkt->pkt_cdbp[0] == SCMD_RESERVE) || 3461 (pkt->pkt_cdbp[0] == SCMD_RESERVE_G1)) { 3462 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_intr received" 3463 " cmd_tran_err for scsi-2 reserve cmd\n")); 3464 if (!vhci_recovery_reset(vlun, &pkt->pkt_address, 3465 TRUE, VHCI_DEPTH_TARGET)) { 3466 VHCI_DEBUG(1, (CE_WARN, NULL, 3467 "!vhci_intr cmd_tran_err reset failed!")); 3468 } 3469 } 3470 break; 3471 3472 case CMD_DEV_GONE: 3473 /* 3474 * If this is the last path then report CMD_DEV_GONE to the 3475 * target driver, otherwise report BUSY to triggger retry. 3476 */ 3477 if (vlun->svl_dip && 3478 (mdi_client_get_path_count(vlun->svl_dip) <= 1)) { 3479 struct scsi_vhci *vhci; 3480 vhci = ADDR2VHCI(&tpkt->pkt_address); 3481 VHCI_DEBUG(1, (CE_NOTE, NULL, "vhci_intr received " 3482 "cmd_dev_gone on last path\n")); 3483 (void) vhci_invalidate_mpapi_lu(vhci, vlun); 3484 break; 3485 } 3486 3487 /* Report CMD_CMPLT-with-BUSY to cause retry. */ 3488 VHCI_DEBUG(1, (CE_NOTE, NULL, "vhci_intr received " 3489 "cmd_dev_gone\n")); 3490 tpkt->pkt_reason = CMD_CMPLT; 3491 tpkt->pkt_state = STATE_GOT_BUS | 3492 STATE_GOT_TARGET | STATE_SENT_CMD | 3493 STATE_GOT_STATUS; 3494 *(tpkt->pkt_scbp) = STATUS_BUSY; 3495 break; 3496 3497 default: 3498 break; 3499 } 3500 3501 /* 3502 * SCSI-II RESERVE cmd has been serviced by the lower layers clear 3503 * the flag so the lun is not QUIESCED any longer. 3504 * Also clear the VHCI_PKT_THRU_TASKQ flag, to ensure that if this pkt 3505 * is retried, a taskq shall again be dispatched to service it. Else 3506 * it may lead to a system hang if the retry is within interrupt 3507 * context. 3508 */ 3509 if ((pkt->pkt_cdbp[0] == SCMD_RESERVE) || 3510 (pkt->pkt_cdbp[0] == SCMD_RESERVE_G1)) { 3511 vlun->svl_flags &= ~VLUN_QUIESCED_FLG; 3512 vpkt->vpkt_state &= ~VHCI_PKT_THRU_TASKQ; 3513 } 3514 3515 /* 3516 * vpkt_org_vpkt should always be NULL here if the retry command 3517 * has been successfully processed. If vpkt_org_vpkt != NULL at 3518 * this point, it is an error so restore the original vpkt and 3519 * return an error to the target driver so it can retry the 3520 * command as appropriate. 3521 */ 3522 if (vpkt->vpkt_org_vpkt != NULL) { 3523 struct vhci_pkt *new_vpkt = vpkt; 3524 vpkt = vpkt->vpkt_org_vpkt; 3525 3526 vhci_scsi_destroy_pkt(&svp->svp_psd->sd_address, 3527 new_vpkt->vpkt_tgt_pkt); 3528 3529 /* 3530 * Mark this command completion as having an error so that 3531 * ssd will retry the command. 3532 */ 3533 vpkt->vpkt_tgt_pkt->pkt_reason = CMD_ABORTED; 3534 vpkt->vpkt_tgt_pkt->pkt_statistics |= STAT_ABORTED; 3535 3536 pkt = vpkt->vpkt_hba_pkt; 3537 tpkt = vpkt->vpkt_tgt_pkt; 3538 } 3539 3540 if ((err_str != NULL) && (pkt->pkt_reason != 3541 svp->svp_last_pkt_reason)) { 3542 cdip = vlun->svl_dip; 3543 vdip = ddi_get_parent(cdip); 3544 cpath = kmem_alloc(MAXPATHLEN, KM_SLEEP); 3545 vhci_log(CE_WARN, vdip, "!%s (%s%d): %s on path %s", 3546 ddi_pathname(cdip, cpath), ddi_driver_name(cdip), 3547 ddi_get_instance(cdip), err_str, 3548 mdi_pi_spathname(vpkt->vpkt_path)); 3549 kmem_free(cpath, MAXPATHLEN); 3550 } 3551 svp->svp_last_pkt_reason = pkt->pkt_reason; 3552 VHCI_DECR_PATH_CMDCOUNT(svp); 3553 3554 /* 3555 * For PARTIAL_DMA, vhci should not free the path. 3556 * Target driver will call into vhci_scsi_dmafree or 3557 * destroy pkt to release this path. 3558 */ 3559 if ((vpkt->vpkt_flags & CFLAG_DMA_PARTIAL) == 0) { 3560 scsi_destroy_pkt(pkt); 3561 vpkt->vpkt_hba_pkt = NULL; 3562 if (vpkt->vpkt_path) { 3563 mdi_rele_path(vpkt->vpkt_path); 3564 vpkt->vpkt_path = NULL; 3565 } 3566 } 3567 3568 scsi_hba_pkt_comp(tpkt); 3569 } 3570 3571 /* 3572 * two possibilities: (1) failover has completed 3573 * or (2) is in progress; update our path states for 3574 * the former case; for the latter case, 3575 * initiate a scsi_watch request to 3576 * determine when failover completes - vlun is HELD 3577 * until failover completes; BUSY is returned to upper 3578 * layer in both the cases 3579 */ 3580 static int 3581 vhci_handle_ext_fo(struct scsi_pkt *pkt, int fostat) 3582 { 3583 struct vhci_pkt *vpkt = (struct vhci_pkt *)pkt->pkt_private; 3584 struct scsi_pkt *tpkt; 3585 scsi_vhci_priv_t *svp; 3586 scsi_vhci_lun_t *vlun; 3587 struct scsi_vhci *vhci; 3588 scsi_vhci_swarg_t *swarg; 3589 char *path; 3590 3591 ASSERT(vpkt != NULL); 3592 tpkt = vpkt->vpkt_tgt_pkt; 3593 ASSERT(tpkt != NULL); 3594 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(vpkt->vpkt_path); 3595 ASSERT(svp != NULL); 3596 vlun = svp->svp_svl; 3597 ASSERT(vlun != NULL); 3598 ASSERT(VHCI_LUN_IS_HELD(vlun)); 3599 3600 vhci = ADDR2VHCI(&tpkt->pkt_address); 3601 3602 if (fostat == SCSI_SENSE_INACTIVE) { 3603 VHCI_DEBUG(1, (CE_NOTE, NULL, "!Failover " 3604 "detected for %s; updating path states...\n", 3605 vlun->svl_lun_wwn)); 3606 /* 3607 * set the vlun flag to indicate to the task that the target 3608 * port group needs updating 3609 */ 3610 vlun->svl_flags |= VLUN_UPDATE_TPG; 3611 (void) taskq_dispatch(vhci->vhci_update_pathstates_taskq, 3612 vhci_update_pathstates, (void *)vlun, KM_SLEEP); 3613 } else { 3614 path = kmem_alloc(MAXPATHLEN, KM_SLEEP); 3615 vhci_log(CE_NOTE, ddi_get_parent(vlun->svl_dip), 3616 "!%s (%s%d): Waiting for externally initiated failover " 3617 "to complete", ddi_pathname(vlun->svl_dip, path), 3618 ddi_driver_name(vlun->svl_dip), 3619 ddi_get_instance(vlun->svl_dip)); 3620 kmem_free(path, MAXPATHLEN); 3621 swarg = kmem_alloc(sizeof (*swarg), KM_NOSLEEP); 3622 if (swarg == NULL) { 3623 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_handle_ext_fo: " 3624 "request packet allocation for %s failed....\n", 3625 vlun->svl_lun_wwn)); 3626 VHCI_RELEASE_LUN(vlun); 3627 return (PKT_RETURN); 3628 } 3629 swarg->svs_svp = svp; 3630 swarg->svs_tos = gethrtime(); 3631 swarg->svs_pi = vpkt->vpkt_path; 3632 swarg->svs_release_lun = 0; 3633 swarg->svs_done = 0; 3634 /* 3635 * place a hold on the path...we don't want it to 3636 * vanish while scsi_watch is in progress 3637 */ 3638 mdi_hold_path(vpkt->vpkt_path); 3639 svp->svp_sw_token = scsi_watch_request_submit(svp->svp_psd, 3640 VHCI_FOWATCH_INTERVAL, SENSE_LENGTH, vhci_efo_watch_cb, 3641 (caddr_t)swarg); 3642 } 3643 return (BUSY_RETURN); 3644 } 3645 3646 /* 3647 * vhci_efo_watch_cb: 3648 * Callback from scsi_watch request to check the failover status. 3649 * Completion is either due to successful failover or timeout. 3650 * Upon successful completion, vhci_update_path_states is called. 3651 * For timeout condition, vhci_efo_done is called. 3652 * Always returns 0 to scsi_watch to keep retrying till vhci_efo_done 3653 * terminates this request properly in a separate thread. 3654 */ 3655 3656 static int 3657 vhci_efo_watch_cb(caddr_t arg, struct scsi_watch_result *resultp) 3658 { 3659 struct scsi_status *statusp = resultp->statusp; 3660 uint8_t *sensep = (uint8_t *)resultp->sensep; 3661 struct scsi_pkt *pkt = resultp->pkt; 3662 scsi_vhci_swarg_t *swarg; 3663 scsi_vhci_priv_t *svp; 3664 scsi_vhci_lun_t *vlun; 3665 struct scsi_vhci *vhci; 3666 dev_info_t *vdip; 3667 int rval, updt_paths; 3668 3669 swarg = (scsi_vhci_swarg_t *)(uintptr_t)arg; 3670 svp = swarg->svs_svp; 3671 if (swarg->svs_done) { 3672 /* 3673 * Already completed failover or timedout. 3674 * Waiting for vhci_efo_done to terminate this scsi_watch. 3675 */ 3676 return (0); 3677 } 3678 3679 ASSERT(svp != NULL); 3680 vlun = svp->svp_svl; 3681 ASSERT(vlun != NULL); 3682 ASSERT(VHCI_LUN_IS_HELD(vlun)); 3683 vlun->svl_efo_update_path = 0; 3684 vdip = ddi_get_parent(vlun->svl_dip); 3685 vhci = ddi_get_soft_state(vhci_softstate, 3686 ddi_get_instance(vdip)); 3687 3688 updt_paths = 0; 3689 3690 if (pkt->pkt_reason != CMD_CMPLT) { 3691 if ((gethrtime() - swarg->svs_tos) >= VHCI_EXTFO_TIMEOUT) { 3692 swarg->svs_release_lun = 1; 3693 goto done; 3694 } 3695 return (0); 3696 } 3697 if (*((unsigned char *)statusp) == STATUS_CHECK) { 3698 rval = vlun->svl_fops->sfo_analyze_sense(svp->svp_psd, sensep, 3699 vlun->svl_fops_ctpriv); 3700 switch (rval) { 3701 /* 3702 * Only update path states in case path is definitely 3703 * inactive, or no failover occurred. For all other 3704 * check conditions continue pinging. A unexpected 3705 * check condition shouldn't cause pinging to complete 3706 * prematurely. 3707 */ 3708 case SCSI_SENSE_INACTIVE: 3709 case SCSI_SENSE_NOFAILOVER: 3710 updt_paths = 1; 3711 break; 3712 default: 3713 if ((gethrtime() - swarg->svs_tos) 3714 >= VHCI_EXTFO_TIMEOUT) { 3715 swarg->svs_release_lun = 1; 3716 goto done; 3717 } 3718 return (0); 3719 } 3720 } else if (*((unsigned char *)statusp) == 3721 STATUS_RESERVATION_CONFLICT) { 3722 updt_paths = 1; 3723 } else if ((*((unsigned char *)statusp)) & 3724 (STATUS_BUSY | STATUS_QFULL)) { 3725 return (0); 3726 } 3727 if ((*((unsigned char *)statusp) == STATUS_GOOD) || 3728 (updt_paths == 1)) { 3729 /* 3730 * we got here because we had detected an 3731 * externally initiated failover; things 3732 * have settled down now, so let's 3733 * start up a task to update the 3734 * path states and target port group 3735 */ 3736 vlun->svl_efo_update_path = 1; 3737 swarg->svs_done = 1; 3738 vlun->svl_swarg = swarg; 3739 vlun->svl_flags |= VLUN_UPDATE_TPG; 3740 (void) taskq_dispatch(vhci->vhci_update_pathstates_taskq, 3741 vhci_update_pathstates, (void *)vlun, 3742 KM_SLEEP); 3743 return (0); 3744 } 3745 if ((gethrtime() - swarg->svs_tos) >= VHCI_EXTFO_TIMEOUT) { 3746 swarg->svs_release_lun = 1; 3747 goto done; 3748 } 3749 return (0); 3750 done: 3751 swarg->svs_done = 1; 3752 (void) taskq_dispatch(vhci->vhci_taskq, 3753 vhci_efo_done, (void *)swarg, KM_SLEEP); 3754 return (0); 3755 } 3756 3757 /* 3758 * vhci_efo_done: 3759 * cleanly terminates scsi_watch and free up resources. 3760 * Called as taskq function in vhci_efo_watch_cb for EFO timeout condition 3761 * or by vhci_update_path_states invoked during external initiated 3762 * failover completion. 3763 */ 3764 static void 3765 vhci_efo_done(void *arg) 3766 { 3767 scsi_vhci_lun_t *vlun; 3768 scsi_vhci_swarg_t *swarg = (scsi_vhci_swarg_t *)arg; 3769 scsi_vhci_priv_t *svp = swarg->svs_svp; 3770 ASSERT(svp); 3771 3772 vlun = svp->svp_svl; 3773 ASSERT(vlun); 3774 3775 /* Wait for clean termination of scsi_watch */ 3776 (void) scsi_watch_request_terminate(svp->svp_sw_token, 3777 SCSI_WATCH_TERMINATE_ALL_WAIT); 3778 svp->svp_sw_token = NULL; 3779 3780 /* release path and freeup resources to indicate failover completion */ 3781 mdi_rele_path(swarg->svs_pi); 3782 if (swarg->svs_release_lun) { 3783 VHCI_RELEASE_LUN(vlun); 3784 } 3785 kmem_free((void *)swarg, sizeof (*swarg)); 3786 } 3787 3788 /* 3789 * Update the path states 3790 * vlun should be HELD when this is invoked. 3791 * Calls vhci_efo_done to cleanup resources allocated for EFO. 3792 */ 3793 void 3794 vhci_update_pathstates(void *arg) 3795 { 3796 mdi_pathinfo_t *pip, *npip; 3797 dev_info_t *dip; 3798 struct scsi_failover_ops *fo; 3799 struct scsi_vhci_priv *svp; 3800 struct scsi_device *psd; 3801 struct scsi_path_opinfo opinfo; 3802 char *pclass, *tptr; 3803 struct scsi_vhci_lun *vlun = (struct scsi_vhci_lun *)arg; 3804 int sps; /* mdi_select_path() status */ 3805 char *cpath; 3806 struct scsi_vhci *vhci; 3807 struct scsi_pkt *pkt; 3808 struct buf *bp; 3809 struct scsi_vhci_priv *svp_conflict = NULL; 3810 3811 ASSERT(VHCI_LUN_IS_HELD(vlun)); 3812 dip = vlun->svl_dip; 3813 pip = npip = NULL; 3814 3815 vhci = ddi_get_soft_state(vhci_softstate, 3816 ddi_get_instance(ddi_get_parent(dip))); 3817 3818 sps = mdi_select_path(dip, NULL, (MDI_SELECT_ONLINE_PATH | 3819 MDI_SELECT_STANDBY_PATH | MDI_SELECT_NO_PREFERRED), NULL, &npip); 3820 if ((npip == NULL) || (sps != MDI_SUCCESS)) { 3821 goto done; 3822 } 3823 3824 fo = vlun->svl_fops; 3825 do { 3826 pip = npip; 3827 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(pip); 3828 psd = svp->svp_psd; 3829 if (fo->sfo_path_get_opinfo(psd, &opinfo, 3830 vlun->svl_fops_ctpriv) != 0) { 3831 sps = mdi_select_path(dip, NULL, 3832 (MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH | 3833 MDI_SELECT_NO_PREFERRED), pip, &npip); 3834 mdi_rele_path(pip); 3835 continue; 3836 } 3837 3838 if (mdi_prop_lookup_string(pip, "path-class", &pclass) != 3839 MDI_SUCCESS) { 3840 VHCI_DEBUG(1, (CE_NOTE, NULL, 3841 "!vhci_update_pathstates: prop lookup failed for " 3842 "path 0x%p\n", (void *)pip)); 3843 sps = mdi_select_path(dip, NULL, 3844 (MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH | 3845 MDI_SELECT_NO_PREFERRED), pip, &npip); 3846 mdi_rele_path(pip); 3847 continue; 3848 } 3849 3850 /* 3851 * Need to update the "path-class" property 3852 * value in the device tree if different 3853 * from the existing value. 3854 */ 3855 if (strcmp(pclass, opinfo.opinfo_path_attr) != 0) { 3856 (void) mdi_prop_update_string(pip, "path-class", 3857 opinfo.opinfo_path_attr); 3858 } 3859 3860 /* 3861 * Only change the state if needed. i.e. Don't call 3862 * mdi_pi_set_state to ONLINE a path if its already 3863 * ONLINE. Same for STANDBY paths. 3864 */ 3865 3866 if ((opinfo.opinfo_path_state == SCSI_PATH_ACTIVE || 3867 opinfo.opinfo_path_state == SCSI_PATH_ACTIVE_NONOPT)) { 3868 if (!(MDI_PI_IS_ONLINE(pip))) { 3869 VHCI_DEBUG(1, (CE_NOTE, NULL, 3870 "!vhci_update_pathstates: marking path" 3871 " 0x%p as ONLINE\n", (void *)pip)); 3872 cpath = kmem_alloc(MAXPATHLEN, KM_SLEEP); 3873 vhci_log(CE_NOTE, ddi_get_parent(dip), "!%s " 3874 "(%s%d): path %s " 3875 "is now ONLINE because of " 3876 "an externally initiated failover", 3877 ddi_pathname(dip, cpath), 3878 ddi_driver_name(dip), 3879 ddi_get_instance(dip), 3880 mdi_pi_spathname(pip)); 3881 kmem_free(cpath, MAXPATHLEN); 3882 mdi_pi_set_state(pip, 3883 MDI_PATHINFO_STATE_ONLINE); 3884 mdi_pi_set_preferred(pip, 3885 opinfo.opinfo_preferred); 3886 tptr = kmem_alloc(strlen 3887 (opinfo.opinfo_path_attr) + 1, KM_SLEEP); 3888 (void) strlcpy(tptr, opinfo.opinfo_path_attr, 3889 (strlen(opinfo.opinfo_path_attr) + 1)); 3890 mutex_enter(&vlun->svl_mutex); 3891 if (vlun->svl_active_pclass != NULL) { 3892 kmem_free(vlun->svl_active_pclass, 3893 strlen(vlun->svl_active_pclass) + 3894 1); 3895 } 3896 vlun->svl_active_pclass = tptr; 3897 if (vlun->svl_waiting_for_activepath) { 3898 vlun->svl_waiting_for_activepath = 0; 3899 } 3900 mutex_exit(&vlun->svl_mutex); 3901 } else if (MDI_PI_IS_ONLINE(pip)) { 3902 if (strcmp(pclass, opinfo.opinfo_path_attr) 3903 != 0) { 3904 mdi_pi_set_preferred(pip, 3905 opinfo.opinfo_preferred); 3906 mutex_enter(&vlun->svl_mutex); 3907 if (vlun->svl_active_pclass == NULL || 3908 strcmp(opinfo.opinfo_path_attr, 3909 vlun->svl_active_pclass) != 0) { 3910 mutex_exit(&vlun->svl_mutex); 3911 tptr = kmem_alloc(strlen 3912 (opinfo.opinfo_path_attr) + 3913 1, KM_SLEEP); 3914 (void) strlcpy(tptr, 3915 opinfo.opinfo_path_attr, 3916 (strlen 3917 (opinfo.opinfo_path_attr) 3918 + 1)); 3919 mutex_enter(&vlun->svl_mutex); 3920 } else { 3921 /* 3922 * No need to update 3923 * svl_active_pclass 3924 */ 3925 tptr = NULL; 3926 mutex_exit(&vlun->svl_mutex); 3927 } 3928 if (tptr) { 3929 if (vlun->svl_active_pclass 3930 != NULL) { 3931 kmem_free(vlun-> 3932 svl_active_pclass, 3933 strlen(vlun-> 3934 svl_active_pclass) 3935 + 1); 3936 } 3937 vlun->svl_active_pclass = tptr; 3938 mutex_exit(&vlun->svl_mutex); 3939 } 3940 } 3941 } 3942 3943 /* Check for Reservation Conflict */ 3944 bp = scsi_alloc_consistent_buf( 3945 &svp->svp_psd->sd_address, (struct buf *)NULL, 3946 DEV_BSIZE, B_READ, NULL, NULL); 3947 if (!bp) { 3948 VHCI_DEBUG(1, (CE_NOTE, NULL, 3949 "!vhci_update_pathstates: No resources " 3950 "(buf)\n")); 3951 mdi_rele_path(pip); 3952 goto done; 3953 } 3954 pkt = scsi_init_pkt(&svp->svp_psd->sd_address, NULL, bp, 3955 CDB_GROUP1, sizeof (struct scsi_arq_status), 0, 3956 PKT_CONSISTENT, NULL, NULL); 3957 if (pkt) { 3958 (void) scsi_setup_cdb((union scsi_cdb *) 3959 (uintptr_t)pkt->pkt_cdbp, SCMD_READ, 1, 1, 3960 0); 3961 pkt->pkt_time = 3 * 30; 3962 pkt->pkt_flags = FLAG_NOINTR; 3963 pkt->pkt_path_instance = 3964 mdi_pi_get_path_instance(pip); 3965 3966 if ((scsi_transport(pkt) == TRAN_ACCEPT) && 3967 (pkt->pkt_reason == CMD_CMPLT) && 3968 (SCBP_C(pkt) == 3969 STATUS_RESERVATION_CONFLICT)) { 3970 VHCI_DEBUG(1, (CE_NOTE, NULL, 3971 "!vhci_update_pathstates: reserv. " 3972 "conflict to be resolved on 0x%p\n", 3973 (void *)pip)); 3974 svp_conflict = svp; 3975 } 3976 scsi_destroy_pkt(pkt); 3977 } 3978 scsi_free_consistent_buf(bp); 3979 } else if ((opinfo.opinfo_path_state == SCSI_PATH_INACTIVE) && 3980 !(MDI_PI_IS_STANDBY(pip))) { 3981 VHCI_DEBUG(1, (CE_NOTE, NULL, 3982 "!vhci_update_pathstates: marking path" 3983 " 0x%p as STANDBY\n", (void *)pip)); 3984 cpath = kmem_alloc(MAXPATHLEN, KM_SLEEP); 3985 vhci_log(CE_NOTE, ddi_get_parent(dip), "!%s " 3986 "(%s%d): path %s " 3987 "is now STANDBY because of " 3988 "an externally initiated failover", 3989 ddi_pathname(dip, cpath), 3990 ddi_driver_name(dip), 3991 ddi_get_instance(dip), 3992 mdi_pi_spathname(pip)); 3993 kmem_free(cpath, MAXPATHLEN); 3994 mdi_pi_set_state(pip, 3995 MDI_PATHINFO_STATE_STANDBY); 3996 mdi_pi_set_preferred(pip, 3997 opinfo.opinfo_preferred); 3998 mutex_enter(&vlun->svl_mutex); 3999 if (vlun->svl_active_pclass != NULL) { 4000 if (strcmp(vlun->svl_active_pclass, 4001 opinfo.opinfo_path_attr) == 0) { 4002 kmem_free(vlun-> 4003 svl_active_pclass, 4004 strlen(vlun-> 4005 svl_active_pclass) + 1); 4006 vlun->svl_active_pclass = NULL; 4007 } 4008 } 4009 mutex_exit(&vlun->svl_mutex); 4010 } 4011 (void) mdi_prop_free(pclass); 4012 sps = mdi_select_path(dip, NULL, 4013 (MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH | 4014 MDI_SELECT_NO_PREFERRED), pip, &npip); 4015 mdi_rele_path(pip); 4016 4017 } while ((npip != NULL) && (sps == MDI_SUCCESS)); 4018 4019 /* 4020 * Check to see if this vlun has an active SCSI-II RESERVE. If so 4021 * clear the reservation by sending a reset, so the host doesn't 4022 * receive a reservation conflict. The reset has to be sent via a 4023 * working path. Let's use a path referred to by svp_conflict as it 4024 * should be working. 4025 * Reset VLUN_RESERVE_ACTIVE_FLG for this vlun. Also notify ssd 4026 * of the reset, explicitly. 4027 */ 4028 if (vlun->svl_flags & VLUN_RESERVE_ACTIVE_FLG) { 4029 if (svp_conflict && (vlun->svl_xlf_capable == 0)) { 4030 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_update_pathstates:" 4031 " sending recovery reset on 0x%p, path_state: %x", 4032 svp_conflict->svp_psd->sd_private, 4033 mdi_pi_get_state((mdi_pathinfo_t *) 4034 svp_conflict->svp_psd->sd_private))); 4035 4036 (void) vhci_recovery_reset(vlun, 4037 &svp_conflict->svp_psd->sd_address, FALSE, 4038 VHCI_DEPTH_TARGET); 4039 } 4040 vlun->svl_flags &= ~VLUN_RESERVE_ACTIVE_FLG; 4041 mutex_enter(&vhci->vhci_mutex); 4042 scsi_hba_reset_notify_callback(&vhci->vhci_mutex, 4043 &vhci->vhci_reset_notify_listf); 4044 mutex_exit(&vhci->vhci_mutex); 4045 } 4046 if (vlun->svl_flags & VLUN_UPDATE_TPG) { 4047 /* 4048 * Update the AccessState of related MP-API TPGs 4049 */ 4050 (void) vhci_mpapi_update_tpg_acc_state_for_lu(vhci, vlun); 4051 vlun->svl_flags &= ~VLUN_UPDATE_TPG; 4052 } 4053 done: 4054 if (vlun->svl_efo_update_path) { 4055 vlun->svl_efo_update_path = 0; 4056 vhci_efo_done(vlun->svl_swarg); 4057 vlun->svl_swarg = 0; 4058 } 4059 VHCI_RELEASE_LUN(vlun); 4060 } 4061 4062 /* ARGSUSED */ 4063 static int 4064 vhci_pathinfo_init(dev_info_t *vdip, mdi_pathinfo_t *pip, int flags) 4065 { 4066 scsi_hba_tran_t *hba = NULL; 4067 struct scsi_device *psd = NULL; 4068 scsi_vhci_lun_t *vlun = NULL; 4069 dev_info_t *pdip = NULL; 4070 dev_info_t *tgt_dip; 4071 struct scsi_vhci *vhci; 4072 char *guid; 4073 scsi_vhci_priv_t *svp = NULL; 4074 int rval = MDI_FAILURE; 4075 int vlun_alloced = 0; 4076 4077 ASSERT(vdip != NULL); 4078 ASSERT(pip != NULL); 4079 4080 vhci = ddi_get_soft_state(vhci_softstate, ddi_get_instance(vdip)); 4081 ASSERT(vhci != NULL); 4082 4083 pdip = mdi_pi_get_phci(pip); 4084 ASSERT(pdip != NULL); 4085 4086 hba = ddi_get_driver_private(pdip); 4087 ASSERT(hba != NULL); 4088 4089 tgt_dip = mdi_pi_get_client(pip); 4090 ASSERT(tgt_dip != NULL); 4091 4092 if (ddi_prop_lookup_string(DDI_DEV_T_ANY, tgt_dip, PROPFLAGS, 4093 MDI_CLIENT_GUID_PROP, &guid) != DDI_SUCCESS) { 4094 VHCI_DEBUG(1, (CE_WARN, NULL, 4095 "vhci_pathinfo_init: lun guid property failed")); 4096 goto failure; 4097 } 4098 4099 vlun = vhci_lun_lookup_alloc(tgt_dip, guid, &vlun_alloced); 4100 ddi_prop_free(guid); 4101 4102 vlun->svl_dip = tgt_dip; 4103 4104 svp = kmem_zalloc(sizeof (*svp), KM_SLEEP); 4105 svp->svp_svl = vlun; 4106 4107 /* 4108 * Initialize svl_lb_policy_save only for newly allocated vlun. Writing 4109 * to svl_lb_policy_save later could accidentally overwrite saved lb 4110 * policy. 4111 */ 4112 if (vlun_alloced) { 4113 vlun->svl_lb_policy_save = mdi_get_lb_policy(tgt_dip); 4114 } 4115 4116 mutex_init(&svp->svp_mutex, NULL, MUTEX_DRIVER, NULL); 4117 cv_init(&svp->svp_cv, NULL, CV_DRIVER, NULL); 4118 4119 psd = kmem_zalloc(sizeof (*psd), KM_SLEEP); 4120 mutex_init(&psd->sd_mutex, NULL, MUTEX_DRIVER, NULL); 4121 4122 if (hba->tran_hba_flags & SCSI_HBA_ADDR_COMPLEX) { 4123 /* 4124 * For a SCSI_HBA_ADDR_COMPLEX transport we store a pointer to 4125 * scsi_device in the scsi_address structure. This allows an 4126 * an HBA driver to find its scsi_device(9S) and 4127 * per-scsi_device(9S) HBA private data given a 4128 * scsi_address(9S) by using scsi_address_device(9F) and 4129 * scsi_device_hba_private_get(9F)). 4130 */ 4131 psd->sd_address.a.a_sd = psd; 4132 } else if (hba->tran_hba_flags & SCSI_HBA_TRAN_CLONE) { 4133 /* 4134 * Clone transport structure if requested, so 4135 * Self enumerating HBAs always need to use cloning 4136 */ 4137 scsi_hba_tran_t *clone = 4138 kmem_alloc(sizeof (scsi_hba_tran_t), KM_SLEEP); 4139 bcopy(hba, clone, sizeof (scsi_hba_tran_t)); 4140 hba = clone; 4141 hba->tran_sd = psd; 4142 } else { 4143 /* 4144 * SPI pHCI unit-address. If we ever need to support this 4145 * we could set a.spi.a_target/a.spi.a_lun based on pathinfo 4146 * node unit-address properties. For now we fail... 4147 */ 4148 goto failure; 4149 } 4150 4151 psd->sd_dev = tgt_dip; 4152 psd->sd_address.a_hba_tran = hba; 4153 4154 /* 4155 * Mark scsi_device as being associated with a pathinfo node. For 4156 * a scsi_device structure associated with a devinfo node, 4157 * scsi_ctlops_initchild sets this field to NULL. 4158 */ 4159 psd->sd_pathinfo = pip; 4160 4161 /* 4162 * LEGACY: sd_private: set for older mpxio-capable pHCI drivers with 4163 * too much scsi_vhci/mdi/ndi knowledge. Remove this code when all 4164 * mpxio-capable pHCI drivers use SCSA enumeration services (or at 4165 * least have been changed to use sd_pathinfo instead). 4166 */ 4167 psd->sd_private = (caddr_t)pip; 4168 4169 /* See scsi_hba.c for info on sd_tran_safe kludge */ 4170 psd->sd_tran_safe = hba; 4171 4172 svp->svp_psd = psd; 4173 mdi_pi_set_vhci_private(pip, (caddr_t)svp); 4174 4175 /* 4176 * call hba's target init entry point if it exists 4177 */ 4178 if (hba->tran_tgt_init != NULL) { 4179 psd->sd_tran_tgt_free_done = 0; 4180 if ((rval = (*hba->tran_tgt_init)(pdip, tgt_dip, 4181 hba, psd)) != DDI_SUCCESS) { 4182 VHCI_DEBUG(1, (CE_WARN, pdip, 4183 "!vhci_pathinfo_init: tran_tgt_init failed for " 4184 "path=0x%p rval=%x", (void *)pip, rval)); 4185 goto failure; 4186 } 4187 } 4188 4189 svp->svp_new_path = 1; 4190 4191 VHCI_DEBUG(4, (CE_NOTE, NULL, "!vhci_pathinfo_init: path:%p\n", 4192 (void *)pip)); 4193 return (MDI_SUCCESS); 4194 4195 failure: 4196 if (psd) { 4197 mutex_destroy(&psd->sd_mutex); 4198 kmem_free(psd, sizeof (*psd)); 4199 } 4200 if (svp) { 4201 mdi_pi_set_vhci_private(pip, NULL); 4202 mutex_destroy(&svp->svp_mutex); 4203 cv_destroy(&svp->svp_cv); 4204 kmem_free(svp, sizeof (*svp)); 4205 } 4206 if (hba && (hba->tran_hba_flags & SCSI_HBA_TRAN_CLONE)) 4207 kmem_free(hba, sizeof (scsi_hba_tran_t)); 4208 4209 if (vlun_alloced) 4210 vhci_lun_free(vlun, NULL); 4211 4212 return (rval); 4213 } 4214 4215 /* ARGSUSED */ 4216 static int 4217 vhci_pathinfo_uninit(dev_info_t *vdip, mdi_pathinfo_t *pip, int flags) 4218 { 4219 scsi_hba_tran_t *hba = NULL; 4220 struct scsi_device *psd = NULL; 4221 dev_info_t *pdip = NULL; 4222 dev_info_t *cdip = NULL; 4223 scsi_vhci_priv_t *svp = NULL; 4224 4225 ASSERT(vdip != NULL); 4226 ASSERT(pip != NULL); 4227 4228 pdip = mdi_pi_get_phci(pip); 4229 ASSERT(pdip != NULL); 4230 4231 cdip = mdi_pi_get_client(pip); 4232 ASSERT(cdip != NULL); 4233 4234 hba = ddi_get_driver_private(pdip); 4235 ASSERT(hba != NULL); 4236 4237 vhci_mpapi_set_path_state(vdip, pip, MP_DRVR_PATH_STATE_UNINIT); 4238 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(pip); 4239 if (svp == NULL) { 4240 /* path already freed. Nothing to do. */ 4241 return (MDI_SUCCESS); 4242 } 4243 4244 psd = svp->svp_psd; 4245 ASSERT(psd != NULL); 4246 4247 if (hba->tran_hba_flags & SCSI_HBA_ADDR_COMPLEX) { 4248 /* Verify plumbing */ 4249 ASSERT(psd->sd_address.a_hba_tran == hba); 4250 ASSERT(psd->sd_address.a.a_sd == psd); 4251 } else if (hba->tran_hba_flags & SCSI_HBA_TRAN_CLONE) { 4252 /* Switch to cloned scsi_hba_tran(9S) structure */ 4253 hba = psd->sd_address.a_hba_tran; 4254 ASSERT(hba->tran_hba_flags & SCSI_HBA_TRAN_CLONE); 4255 ASSERT(hba->tran_sd == psd); 4256 } 4257 4258 if ((hba->tran_tgt_free != NULL) && !psd->sd_tran_tgt_free_done) { 4259 (*hba->tran_tgt_free) (pdip, cdip, hba, psd); 4260 psd->sd_tran_tgt_free_done = 1; 4261 } 4262 mutex_destroy(&psd->sd_mutex); 4263 if (hba->tran_hba_flags & SCSI_HBA_TRAN_CLONE) { 4264 kmem_free(hba, sizeof (*hba)); 4265 } 4266 4267 mdi_pi_set_vhci_private(pip, NULL); 4268 4269 /* 4270 * Free the pathinfo related scsi_device inquiry data. Note that this 4271 * matches what happens for scsi_hba.c devinfo case at uninitchild time. 4272 */ 4273 if (psd->sd_inq) 4274 kmem_free((caddr_t)psd->sd_inq, sizeof (struct scsi_inquiry)); 4275 kmem_free((caddr_t)psd, sizeof (*psd)); 4276 4277 mutex_destroy(&svp->svp_mutex); 4278 cv_destroy(&svp->svp_cv); 4279 kmem_free((caddr_t)svp, sizeof (*svp)); 4280 4281 VHCI_DEBUG(4, (CE_NOTE, NULL, "!vhci_pathinfo_uninit: path=0x%p\n", 4282 (void *)pip)); 4283 return (MDI_SUCCESS); 4284 } 4285 4286 /* ARGSUSED */ 4287 static int 4288 vhci_pathinfo_state_change(dev_info_t *vdip, mdi_pathinfo_t *pip, 4289 mdi_pathinfo_state_t state, uint32_t ext_state, int flags) 4290 { 4291 int rval = MDI_SUCCESS; 4292 scsi_vhci_priv_t *svp; 4293 scsi_vhci_lun_t *vlun; 4294 int held; 4295 int op = (flags & 0xf00) >> 8; 4296 struct scsi_vhci *vhci; 4297 4298 vhci = ddi_get_soft_state(vhci_softstate, ddi_get_instance(vdip)); 4299 4300 if (flags & MDI_EXT_STATE_CHANGE) { 4301 /* 4302 * We do not want to issue any commands down the path in case 4303 * sync flag is set. Lower layers might not be ready to accept 4304 * any I/O commands. 4305 */ 4306 if (op == DRIVER_DISABLE) 4307 return (MDI_SUCCESS); 4308 4309 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(pip); 4310 if (svp == NULL) { 4311 return (MDI_FAILURE); 4312 } 4313 vlun = svp->svp_svl; 4314 4315 if (flags & MDI_BEFORE_STATE_CHANGE) { 4316 /* 4317 * Hold the LUN. 4318 */ 4319 VHCI_HOLD_LUN(vlun, VH_SLEEP, held); 4320 if (flags & MDI_DISABLE_OP) { 4321 /* 4322 * Issue scsi reset if it happens to be 4323 * reserved path. 4324 */ 4325 if (vlun->svl_flags & VLUN_RESERVE_ACTIVE_FLG) { 4326 /* 4327 * if reservation pending on 4328 * this path, dont' mark the 4329 * path busy 4330 */ 4331 if (op == DRIVER_DISABLE_TRANSIENT) { 4332 VHCI_DEBUG(1, (CE_NOTE, NULL, 4333 "!vhci_pathinfo" 4334 "_state_change (pip:%p): " 4335 " reservation: fail busy\n", 4336 (void *)pip)); 4337 return (MDI_FAILURE); 4338 } 4339 if (pip == vlun->svl_resrv_pip) { 4340 if (vhci_recovery_reset( 4341 svp->svp_svl, 4342 &svp->svp_psd->sd_address, 4343 TRUE, 4344 VHCI_DEPTH_TARGET) == 0) { 4345 VHCI_DEBUG(1, 4346 (CE_NOTE, NULL, 4347 "!vhci_pathinfo" 4348 "_state_change " 4349 " (pip:%p): " 4350 "reset failed, " 4351 "give up!\n", 4352 (void *)pip)); 4353 } 4354 vlun->svl_flags &= 4355 ~VLUN_RESERVE_ACTIVE_FLG; 4356 } 4357 } 4358 } else if (flags & MDI_ENABLE_OP) { 4359 if (((vhci->vhci_conf_flags & 4360 VHCI_CONF_FLAGS_AUTO_FAILBACK) == 4361 VHCI_CONF_FLAGS_AUTO_FAILBACK) && 4362 MDI_PI_IS_USER_DISABLE(pip) && 4363 MDI_PI_IS_STANDBY(pip)) { 4364 struct scsi_failover_ops *fo; 4365 char *best_pclass, *pclass = NULL; 4366 int best_class, rv; 4367 /* 4368 * Failback if enabling a standby path 4369 * and it is the primary class or 4370 * preferred class 4371 */ 4372 best_class = mdi_pi_get_preferred(pip); 4373 if (best_class == 0) { 4374 /* 4375 * if not preferred - compare 4376 * path-class with class 4377 */ 4378 fo = vlun->svl_fops; 4379 (void) fo->sfo_pathclass_next( 4380 NULL, &best_pclass, 4381 vlun->svl_fops_ctpriv); 4382 pclass = NULL; 4383 rv = mdi_prop_lookup_string(pip, 4384 "path-class", &pclass); 4385 if (rv != MDI_SUCCESS || 4386 pclass == NULL) { 4387 vhci_log(CE_NOTE, vdip, 4388 "!path-class " 4389 " lookup " 4390 "failed. rv: %d" 4391 "class: %p", rv, 4392 (void *)pclass); 4393 } else if (strncmp(pclass, 4394 best_pclass, 4395 strlen(best_pclass)) == 0) { 4396 best_class = 1; 4397 } 4398 if (rv == MDI_SUCCESS && 4399 pclass != NULL) { 4400 rv = mdi_prop_free( 4401 pclass); 4402 if (rv != 4403 DDI_PROP_SUCCESS) { 4404 vhci_log( 4405 CE_NOTE, 4406 vdip, 4407 "!path-" 4408 "class" 4409 " free" 4410 " failed" 4411 " rv: %d" 4412 " class: " 4413 "%p", 4414 rv, 4415 (void *) 4416 pclass); 4417 } 4418 } 4419 } 4420 if (best_class == 1) { 4421 VHCI_DEBUG(1, (CE_NOTE, NULL, 4422 "preferred path: %p " 4423 "USER_DISABLE->USER_ENABLE " 4424 "transition for lun %s\n", 4425 (void *)pip, 4426 vlun->svl_lun_wwn)); 4427 (void) taskq_dispatch( 4428 vhci->vhci_taskq, 4429 vhci_initiate_auto_failback, 4430 (void *) vlun, KM_SLEEP); 4431 } 4432 } 4433 /* 4434 * if PGR is active, revalidate key and 4435 * register on this path also, if key is 4436 * still valid 4437 */ 4438 sema_p(&vlun->svl_pgr_sema); 4439 if (vlun->svl_pgr_active) 4440 (void) 4441 vhci_pgr_validate_and_register(svp); 4442 sema_v(&vlun->svl_pgr_sema); 4443 /* 4444 * Inform target driver about any 4445 * reservations to be reinstated if target 4446 * has dropped reservation during the busy 4447 * period. 4448 */ 4449 mutex_enter(&vhci->vhci_mutex); 4450 scsi_hba_reset_notify_callback( 4451 &vhci->vhci_mutex, 4452 &vhci->vhci_reset_notify_listf); 4453 mutex_exit(&vhci->vhci_mutex); 4454 } 4455 } 4456 if (flags & MDI_AFTER_STATE_CHANGE) { 4457 if (flags & MDI_ENABLE_OP) { 4458 mutex_enter(&vhci_global_mutex); 4459 cv_broadcast(&vhci_cv); 4460 mutex_exit(&vhci_global_mutex); 4461 } 4462 if (vlun->svl_setcap_done) { 4463 (void) vhci_pHCI_cap(&svp->svp_psd->sd_address, 4464 "sector-size", vlun->svl_sector_size, 4465 1, pip); 4466 } 4467 4468 /* 4469 * Release the LUN 4470 */ 4471 VHCI_RELEASE_LUN(vlun); 4472 4473 /* 4474 * Path transition is complete. 4475 * Run callback to indicate target driver to 4476 * retry to prevent IO starvation. 4477 */ 4478 if (scsi_callback_id != 0) { 4479 ddi_run_callback(&scsi_callback_id); 4480 } 4481 } 4482 } else { 4483 switch (state) { 4484 case MDI_PATHINFO_STATE_ONLINE: 4485 rval = vhci_pathinfo_online(vdip, pip, flags); 4486 break; 4487 4488 case MDI_PATHINFO_STATE_OFFLINE: 4489 rval = vhci_pathinfo_offline(vdip, pip, flags); 4490 break; 4491 4492 default: 4493 break; 4494 } 4495 /* 4496 * Path transition is complete. 4497 * Run callback to indicate target driver to 4498 * retry to prevent IO starvation. 4499 */ 4500 if ((rval == MDI_SUCCESS) && (scsi_callback_id != 0)) { 4501 ddi_run_callback(&scsi_callback_id); 4502 } 4503 return (rval); 4504 } 4505 4506 return (MDI_SUCCESS); 4507 } 4508 4509 /* 4510 * Parse the mpxio load balancing options. The datanameptr 4511 * will point to a string containing the load-balance-options value. 4512 * The load-balance-options value will be a property that 4513 * defines the load-balance algorithm and any arguments to that 4514 * algorithm. 4515 * For example: 4516 * device-type-mpxio-options-list= 4517 * "device-type=SUN SENA", "load-balance-options=logical-block-options" 4518 * "device-type=SUN SE6920", "round-robin-options"; 4519 * logical-block-options="load-balance=logical-block", "region-size=15"; 4520 * round-robin-options="load-balance=round-robin"; 4521 * 4522 * If the load-balance is not defined the load balance algorithm will 4523 * default to the global setting. There will be default values assigned 4524 * to the arguments (region-size=18) and if an argument is one 4525 * that is not known, it will be ignored. 4526 */ 4527 static void 4528 vhci_parse_mpxio_lb_options(dev_info_t *dip, dev_info_t *cdip, 4529 caddr_t datanameptr) 4530 { 4531 char *dataptr, *next_entry; 4532 caddr_t config_list = NULL; 4533 int config_list_len = 0, list_len = 0; 4534 int region_size = -1; 4535 client_lb_t load_balance; 4536 4537 if (ddi_getlongprop(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, datanameptr, 4538 (caddr_t)&config_list, &config_list_len) != DDI_PROP_SUCCESS) { 4539 return; 4540 } 4541 4542 list_len = config_list_len; 4543 next_entry = config_list; 4544 while (config_list_len > 0) { 4545 dataptr = next_entry; 4546 4547 if (strncmp(mdi_load_balance, dataptr, 4548 strlen(mdi_load_balance)) == 0) { 4549 /* get the load-balance scheme */ 4550 dataptr += strlen(mdi_load_balance) + 1; 4551 if (strcmp(dataptr, LOAD_BALANCE_PROP_RR) == 0) { 4552 (void) mdi_set_lb_policy(cdip, LOAD_BALANCE_RR); 4553 load_balance = LOAD_BALANCE_RR; 4554 } else if (strcmp(dataptr, 4555 LOAD_BALANCE_PROP_LBA) == 0) { 4556 (void) mdi_set_lb_policy(cdip, 4557 LOAD_BALANCE_LBA); 4558 load_balance = LOAD_BALANCE_LBA; 4559 } else if (strcmp(dataptr, 4560 LOAD_BALANCE_PROP_NONE) == 0) { 4561 (void) mdi_set_lb_policy(cdip, 4562 LOAD_BALANCE_NONE); 4563 load_balance = LOAD_BALANCE_NONE; 4564 } 4565 } else if (strncmp(dataptr, LOGICAL_BLOCK_REGION_SIZE, 4566 strlen(LOGICAL_BLOCK_REGION_SIZE)) == 0) { 4567 int i = 0; 4568 char *ptr; 4569 char *tmp; 4570 4571 tmp = dataptr + (strlen(LOGICAL_BLOCK_REGION_SIZE) + 1); 4572 /* check for numeric value */ 4573 for (ptr = tmp; i < strlen(tmp); i++, ptr++) { 4574 if (!isdigit(*ptr)) { 4575 cmn_err(CE_WARN, 4576 "Illegal region size: %s." 4577 " Setting to default value: %d", 4578 tmp, 4579 LOAD_BALANCE_DEFAULT_REGION_SIZE); 4580 region_size = 4581 LOAD_BALANCE_DEFAULT_REGION_SIZE; 4582 break; 4583 } 4584 } 4585 if (i >= strlen(tmp)) { 4586 region_size = stoi(&tmp); 4587 } 4588 (void) mdi_set_lb_region_size(cdip, region_size); 4589 } 4590 config_list_len -= (strlen(next_entry) + 1); 4591 next_entry += strlen(next_entry) + 1; 4592 } 4593 #ifdef DEBUG 4594 if ((region_size >= 0) && (load_balance != LOAD_BALANCE_LBA)) { 4595 VHCI_DEBUG(1, (CE_NOTE, dip, 4596 "!vhci_parse_mpxio_lb_options: region-size: %d" 4597 "only valid for load-balance=logical-block\n", 4598 region_size)); 4599 } 4600 #endif 4601 if ((region_size == -1) && (load_balance == LOAD_BALANCE_LBA)) { 4602 VHCI_DEBUG(1, (CE_NOTE, dip, 4603 "!vhci_parse_mpxio_lb_options: No region-size" 4604 " defined load-balance=logical-block." 4605 " Default to: %d\n", LOAD_BALANCE_DEFAULT_REGION_SIZE)); 4606 (void) mdi_set_lb_region_size(cdip, 4607 LOAD_BALANCE_DEFAULT_REGION_SIZE); 4608 } 4609 if (list_len > 0) { 4610 kmem_free(config_list, list_len); 4611 } 4612 } 4613 4614 /* 4615 * Parse the device-type-mpxio-options-list looking for the key of 4616 * "load-balance-options". If found, parse the load balancing options. 4617 * Check the comment of the vhci_get_device_type_mpxio_options() 4618 * for the device-type-mpxio-options-list. 4619 */ 4620 static void 4621 vhci_parse_mpxio_options(dev_info_t *dip, dev_info_t *cdip, 4622 caddr_t datanameptr, int list_len) 4623 { 4624 char *dataptr; 4625 int len; 4626 4627 /* 4628 * get the data list 4629 */ 4630 dataptr = datanameptr; 4631 len = 0; 4632 while (len < list_len && 4633 strncmp(dataptr, DEVICE_TYPE_STR, strlen(DEVICE_TYPE_STR)) 4634 != 0) { 4635 if (strncmp(dataptr, LOAD_BALANCE_OPTIONS, 4636 strlen(LOAD_BALANCE_OPTIONS)) == 0) { 4637 len += strlen(LOAD_BALANCE_OPTIONS) + 1; 4638 dataptr += strlen(LOAD_BALANCE_OPTIONS) + 1; 4639 vhci_parse_mpxio_lb_options(dip, cdip, dataptr); 4640 } 4641 len += strlen(dataptr) + 1; 4642 dataptr += strlen(dataptr) + 1; 4643 } 4644 } 4645 4646 /* 4647 * Check the inquriy string returned from the device with the device-type 4648 * Check for the existence of the device-type-mpxio-options-list and 4649 * if found parse the list checking for a match with the device-type 4650 * value and the inquiry string returned from the device. If a match 4651 * is found, parse the mpxio options list. The format of the 4652 * device-type-mpxio-options-list is: 4653 * device-type-mpxio-options-list= 4654 * "device-type=SUN SENA", "load-balance-options=logical-block-options" 4655 * "device-type=SUN SE6920", "round-robin-options"; 4656 * logical-block-options="load-balance=logical-block", "region-size=15"; 4657 * round-robin-options="load-balance=round-robin"; 4658 */ 4659 void 4660 vhci_get_device_type_mpxio_options(dev_info_t *dip, dev_info_t *cdip, 4661 struct scsi_device *devp) 4662 { 4663 4664 caddr_t config_list = NULL; 4665 caddr_t vidptr, datanameptr; 4666 int vidlen, dupletlen = 0; 4667 int config_list_len = 0, len; 4668 struct scsi_inquiry *inq = devp->sd_inq; 4669 4670 /* 4671 * look up the device-type-mpxio-options-list and walk thru 4672 * the list compare the vendor ids of the earlier inquiry command and 4673 * with those vids in the list if there is a match, lookup 4674 * the mpxio-options value 4675 */ 4676 if (ddi_getlongprop(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, 4677 MPXIO_OPTIONS_LIST, 4678 (caddr_t)&config_list, &config_list_len) == DDI_PROP_SUCCESS) { 4679 4680 /* 4681 * Compare vids in each duplet - if it matches, 4682 * parse the mpxio options list. 4683 */ 4684 for (len = config_list_len, vidptr = config_list; len > 0; 4685 len -= dupletlen) { 4686 4687 dupletlen = 0; 4688 4689 if (strlen(vidptr) != 0 && 4690 strncmp(vidptr, DEVICE_TYPE_STR, 4691 strlen(DEVICE_TYPE_STR)) == 0) { 4692 /* point to next duplet */ 4693 datanameptr = vidptr + strlen(vidptr) + 1; 4694 /* add len of this duplet */ 4695 dupletlen += strlen(vidptr) + 1; 4696 /* get to device type */ 4697 vidptr += strlen(DEVICE_TYPE_STR) + 1; 4698 vidlen = strlen(vidptr); 4699 if ((vidlen != 0) && 4700 bcmp(inq->inq_vid, vidptr, vidlen) == 0) { 4701 vhci_parse_mpxio_options(dip, cdip, 4702 datanameptr, len - dupletlen); 4703 break; 4704 } 4705 /* get to next duplet */ 4706 vidptr += strlen(vidptr) + 1; 4707 } 4708 /* get to the next device-type */ 4709 while (len - dupletlen > 0 && 4710 strlen(vidptr) != 0 && 4711 strncmp(vidptr, DEVICE_TYPE_STR, 4712 strlen(DEVICE_TYPE_STR)) != 0) { 4713 dupletlen += strlen(vidptr) + 1; 4714 vidptr += strlen(vidptr) + 1; 4715 } 4716 } 4717 if (config_list_len > 0) { 4718 kmem_free(config_list, config_list_len); 4719 } 4720 } 4721 } 4722 4723 static int 4724 vhci_update_pathinfo(struct scsi_device *psd, mdi_pathinfo_t *pip, 4725 struct scsi_failover_ops *fo, scsi_vhci_lun_t *vlun, 4726 struct scsi_vhci *vhci) 4727 { 4728 struct scsi_path_opinfo opinfo; 4729 char *pclass, *best_pclass; 4730 char *resrv_pclass = NULL; 4731 int force_rereserve = 0; 4732 int update_pathinfo_done = 0; 4733 4734 if (fo->sfo_path_get_opinfo(psd, &opinfo, vlun->svl_fops_ctpriv) != 0) { 4735 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_update_pathinfo: " 4736 "Failed to get operation info for path:%p\n", (void *)pip)); 4737 return (MDI_FAILURE); 4738 } 4739 /* set the xlf capable flag in the vlun for future use */ 4740 vlun->svl_xlf_capable = opinfo.opinfo_xlf_capable; 4741 (void) mdi_prop_update_string(pip, "path-class", 4742 opinfo.opinfo_path_attr); 4743 4744 pclass = opinfo.opinfo_path_attr; 4745 if (opinfo.opinfo_path_state == SCSI_PATH_ACTIVE) { 4746 mutex_enter(&vlun->svl_mutex); 4747 if (vlun->svl_active_pclass != NULL) { 4748 if (strcmp(vlun->svl_active_pclass, pclass) != 0) { 4749 mutex_exit(&vlun->svl_mutex); 4750 /* 4751 * Externally initiated failover has happened; 4752 * force the path state to be STANDBY/ONLINE, 4753 * next IO will trigger failover and thus 4754 * sync-up the pathstates. Reason we don't 4755 * sync-up immediately by invoking 4756 * vhci_update_pathstates() is because it 4757 * needs a VHCI_HOLD_LUN() and we don't 4758 * want to block here. 4759 * 4760 * Further, if the device is an ALUA device, 4761 * then failure to exactly match 'pclass' and 4762 * 'svl_active_pclass'(as is the case here) 4763 * indicates that the currently active path 4764 * is a 'non-optimized' path - which means 4765 * that 'svl_active_pclass' needs to be 4766 * replaced with opinfo.opinfo_path_state 4767 * value. 4768 */ 4769 4770 if (SCSI_FAILOVER_IS_TPGS(vlun->svl_fops)) { 4771 char *tptr; 4772 4773 /* 4774 * The device is ALUA compliant. The 4775 * state need to be changed to online 4776 * rather than standby state which is 4777 * done typically for a asymmetric 4778 * device that is non ALUA compliant. 4779 */ 4780 mdi_pi_set_state(pip, 4781 MDI_PATHINFO_STATE_ONLINE); 4782 tptr = kmem_alloc(strlen 4783 (opinfo.opinfo_path_attr) + 1, 4784 KM_SLEEP); 4785 (void) strlcpy(tptr, 4786 opinfo.opinfo_path_attr, 4787 (strlen(opinfo.opinfo_path_attr) 4788 + 1)); 4789 mutex_enter(&vlun->svl_mutex); 4790 kmem_free(vlun->svl_active_pclass, 4791 strlen(vlun->svl_active_pclass) + 4792 1); 4793 vlun->svl_active_pclass = tptr; 4794 mutex_exit(&vlun->svl_mutex); 4795 } else { 4796 /* 4797 * Non ALUA device case. 4798 */ 4799 mdi_pi_set_state(pip, 4800 MDI_PATHINFO_STATE_STANDBY); 4801 } 4802 vlun->svl_fo_support = opinfo.opinfo_mode; 4803 mdi_pi_set_preferred(pip, 4804 opinfo.opinfo_preferred); 4805 update_pathinfo_done = 1; 4806 } 4807 4808 /* 4809 * Find out a class of currently reserved path if there 4810 * is any. 4811 */ 4812 if ((vlun->svl_flags & VLUN_RESERVE_ACTIVE_FLG) && 4813 mdi_prop_lookup_string(vlun->svl_resrv_pip, 4814 "path-class", &resrv_pclass) != MDI_SUCCESS) { 4815 VHCI_DEBUG(1, (CE_NOTE, NULL, 4816 "!vhci_update_pathinfo: prop lookup " 4817 "failed for path 0x%p\n", 4818 (void *)vlun->svl_resrv_pip)); 4819 /* 4820 * Something is wrong with the reserved path. 4821 * We can't do much with that right here. Just 4822 * force re-reservation to another path. 4823 */ 4824 force_rereserve = 1; 4825 } 4826 4827 (void) fo->sfo_pathclass_next(NULL, &best_pclass, 4828 vlun->svl_fops_ctpriv); 4829 if ((force_rereserve == 1) || ((resrv_pclass != NULL) && 4830 (strcmp(pclass, best_pclass) == 0) && 4831 (strcmp(resrv_pclass, best_pclass) != 0))) { 4832 /* 4833 * Inform target driver that a reservation 4834 * should be reinstated because the reserved 4835 * path is not the most preferred one. 4836 */ 4837 mutex_enter(&vhci->vhci_mutex); 4838 scsi_hba_reset_notify_callback( 4839 &vhci->vhci_mutex, 4840 &vhci->vhci_reset_notify_listf); 4841 mutex_exit(&vhci->vhci_mutex); 4842 } 4843 4844 if (update_pathinfo_done == 1) { 4845 return (MDI_SUCCESS); 4846 } 4847 } else { 4848 char *tptr; 4849 4850 /* 4851 * lets release the mutex before we try to 4852 * allocate since the potential to sleep is 4853 * possible. 4854 */ 4855 mutex_exit(&vlun->svl_mutex); 4856 tptr = kmem_alloc(strlen(pclass) + 1, KM_SLEEP); 4857 (void) strlcpy(tptr, pclass, (strlen(pclass) + 1)); 4858 mutex_enter(&vlun->svl_mutex); 4859 vlun->svl_active_pclass = tptr; 4860 } 4861 mutex_exit(&vlun->svl_mutex); 4862 mdi_pi_set_state(pip, MDI_PATHINFO_STATE_ONLINE); 4863 vlun->svl_waiting_for_activepath = 0; 4864 } else if (opinfo.opinfo_path_state == SCSI_PATH_ACTIVE_NONOPT) { 4865 mutex_enter(&vlun->svl_mutex); 4866 if (vlun->svl_active_pclass == NULL) { 4867 char *tptr; 4868 4869 mutex_exit(&vlun->svl_mutex); 4870 tptr = kmem_alloc(strlen(pclass) + 1, KM_SLEEP); 4871 (void) strlcpy(tptr, pclass, (strlen(pclass) + 1)); 4872 mutex_enter(&vlun->svl_mutex); 4873 vlun->svl_active_pclass = tptr; 4874 } 4875 mutex_exit(&vlun->svl_mutex); 4876 mdi_pi_set_state(pip, MDI_PATHINFO_STATE_ONLINE); 4877 vlun->svl_waiting_for_activepath = 0; 4878 } else if (opinfo.opinfo_path_state == SCSI_PATH_INACTIVE) { 4879 mutex_enter(&vlun->svl_mutex); 4880 if (vlun->svl_active_pclass != NULL) { 4881 if (strcmp(vlun->svl_active_pclass, pclass) == 0) { 4882 mutex_exit(&vlun->svl_mutex); 4883 /* 4884 * externally initiated failover has happened; 4885 * force state to ONLINE (see comment above) 4886 */ 4887 mdi_pi_set_state(pip, 4888 MDI_PATHINFO_STATE_ONLINE); 4889 vlun->svl_fo_support = opinfo.opinfo_mode; 4890 mdi_pi_set_preferred(pip, 4891 opinfo.opinfo_preferred); 4892 return (MDI_SUCCESS); 4893 } 4894 } 4895 mutex_exit(&vlun->svl_mutex); 4896 mdi_pi_set_state(pip, MDI_PATHINFO_STATE_STANDBY); 4897 4898 /* 4899 * Initiate auto-failback, if enabled, for path if path-state 4900 * is transitioning from OFFLINE->STANDBY and pathclass is the 4901 * preferred pathclass for this storage. 4902 * NOTE: In case where opinfo_path_state is SCSI_PATH_ACTIVE 4903 * (above), where the pi state is set to STANDBY, we don't 4904 * initiate auto-failback as the next IO shall take care of. 4905 * this. See comment above. 4906 */ 4907 (void) fo->sfo_pathclass_next(NULL, &best_pclass, 4908 vlun->svl_fops_ctpriv); 4909 if (((vhci->vhci_conf_flags & VHCI_CONF_FLAGS_AUTO_FAILBACK) == 4910 VHCI_CONF_FLAGS_AUTO_FAILBACK) && 4911 (strcmp(pclass, best_pclass) == 0) && 4912 ((MDI_PI_OLD_STATE(pip) == MDI_PATHINFO_STATE_OFFLINE) || 4913 (MDI_PI_OLD_STATE(pip) == MDI_PATHINFO_STATE_INIT))) { 4914 VHCI_DEBUG(1, (CE_NOTE, NULL, "%s pathclass path: %p" 4915 " OFFLINE->STANDBY transition for lun %s\n", 4916 best_pclass, (void *)pip, vlun->svl_lun_wwn)); 4917 (void) taskq_dispatch(vhci->vhci_taskq, 4918 vhci_initiate_auto_failback, (void *) vlun, 4919 KM_SLEEP); 4920 } 4921 } 4922 vlun->svl_fo_support = opinfo.opinfo_mode; 4923 mdi_pi_set_preferred(pip, opinfo.opinfo_preferred); 4924 4925 VHCI_DEBUG(8, (CE_NOTE, NULL, "vhci_update_pathinfo: opinfo_rev = %x," 4926 " opinfo_path_state = %x opinfo_preferred = %x, opinfo_mode = %x\n", 4927 opinfo.opinfo_rev, opinfo.opinfo_path_state, 4928 opinfo.opinfo_preferred, opinfo.opinfo_mode)); 4929 4930 return (MDI_SUCCESS); 4931 } 4932 4933 /* 4934 * Form the kstat name and and call mdi_pi_kstat_create() 4935 */ 4936 void 4937 vhci_kstat_create_pathinfo(mdi_pathinfo_t *pip) 4938 { 4939 dev_info_t *tgt_dip; 4940 dev_info_t *pdip; 4941 char *guid; 4942 char *target_port, *target_port_dup; 4943 char ks_name[KSTAT_STRLEN]; 4944 uint_t pid; 4945 int by_id; 4946 mod_hash_val_t hv; 4947 4948 4949 /* return if we have already allocated kstats */ 4950 if (mdi_pi_kstat_exists(pip)) 4951 return; 4952 4953 /* 4954 * We need instance numbers to create a kstat name, return if we don't 4955 * have instance numbers assigned yet. 4956 */ 4957 tgt_dip = mdi_pi_get_client(pip); 4958 pdip = mdi_pi_get_phci(pip); 4959 if ((ddi_get_instance(tgt_dip) == -1) || (ddi_get_instance(pdip) == -1)) 4960 return; 4961 4962 /* 4963 * A path oriented kstat has a ks_name of the form: 4964 * 4965 * <client-driver><instance>.t<pid>.<pHCI-driver><instance> 4966 * 4967 * We maintain a bidirectional 'target-port' to <pid> map, 4968 * called targetmap. All pathinfo nodes with the same 4969 * 'target-port' map to the same <pid>. The iostat(8) code, 4970 * when parsing a path oriented kstat name, uses the <pid> as 4971 * a SCSI_VHCI_GET_TARGET_LONGNAME ioctl argument in order 4972 * to get the 'target-port'. For KSTAT_FLAG_PERSISTENT kstats, 4973 * this ioctl needs to translate a <pid> to a 'target-port' 4974 * even after all pathinfo nodes associated with the 4975 * 'target-port' have been destroyed. This is needed to support 4976 * consistent first-iteration activity-since-boot iostat(8) 4977 * output. Because of this requirement, the mapping can't be 4978 * based on pathinfo information in a devinfo snapshot. 4979 */ 4980 4981 /* determine 'target-port' */ 4982 if (mdi_prop_lookup_string(pip, 4983 SCSI_ADDR_PROP_TARGET_PORT, &target_port) == MDI_SUCCESS) { 4984 target_port_dup = i_ddi_strdup(target_port, KM_SLEEP); 4985 (void) mdi_prop_free(target_port); 4986 by_id = 1; 4987 } else { 4988 /* 4989 * If the pHCI did not set up 'target-port' on this 4990 * pathinfo node, assume that our client is the only 4991 * one with paths to the device by using the guid 4992 * value as the 'target-port'. Since no other client 4993 * will have the same guid, no other client will use 4994 * the same <pid>. NOTE: a client with an instance 4995 * number always has a guid. 4996 */ 4997 (void) ddi_prop_lookup_string(DDI_DEV_T_ANY, tgt_dip, 4998 PROPFLAGS, MDI_CLIENT_GUID_PROP, &guid); 4999 target_port_dup = i_ddi_strdup(guid, KM_SLEEP); 5000 ddi_prop_free(guid); 5001 5002 /* 5003 * For this type of mapping we don't want the 5004 * <id> -> 'target-port' mapping to be made. This 5005 * will cause the SCSI_VHCI_GET_TARGET_LONGNAME ioctl 5006 * to fail, and the iostat(8) long '-n' output will 5007 * still use the <pid>. We do this because we just 5008 * made up the 'target-port' using the guid, and we 5009 * don't want to expose that fact in iostat output. 5010 */ 5011 by_id = 0; 5012 } 5013 5014 /* find/establish <pid> given 'target-port' */ 5015 mutex_enter(&vhci_targetmap_mutex); 5016 if (mod_hash_find(vhci_targetmap_byport, 5017 (mod_hash_key_t)target_port_dup, &hv) == 0) { 5018 pid = (int)(intptr_t)hv; /* mapping exists */ 5019 } else { 5020 pid = vhci_targetmap_pid++; /* new mapping */ 5021 5022 (void) mod_hash_insert(vhci_targetmap_byport, 5023 (mod_hash_key_t)target_port_dup, 5024 (mod_hash_val_t)(intptr_t)pid); 5025 if (by_id) { 5026 (void) mod_hash_insert(vhci_targetmap_bypid, 5027 (mod_hash_key_t)(uintptr_t)pid, 5028 (mod_hash_val_t)(uintptr_t)target_port_dup); 5029 } 5030 target_port_dup = NULL; /* owned by hash */ 5031 } 5032 mutex_exit(&vhci_targetmap_mutex); 5033 5034 /* form kstat name */ 5035 (void) snprintf(ks_name, KSTAT_STRLEN, "%s%d.t%d.%s%d", 5036 ddi_driver_name(tgt_dip), ddi_get_instance(tgt_dip), 5037 pid, ddi_driver_name(pdip), ddi_get_instance(pdip)); 5038 5039 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_path_online: path:%p " 5040 "kstat %s: pid %x <-> port %s\n", (void *)pip, 5041 ks_name, pid, target_port_dup)); 5042 if (target_port_dup) 5043 kmem_free(target_port_dup, strlen(target_port_dup) + 1); 5044 5045 /* call mdi to create kstats with the name we built */ 5046 (void) mdi_pi_kstat_create(pip, ks_name); 5047 } 5048 5049 /* ARGSUSED */ 5050 static int 5051 vhci_pathinfo_online(dev_info_t *vdip, mdi_pathinfo_t *pip, int flags) 5052 { 5053 scsi_hba_tran_t *hba = NULL; 5054 struct scsi_device *psd = NULL; 5055 scsi_vhci_lun_t *vlun = NULL; 5056 dev_info_t *pdip = NULL; 5057 dev_info_t *cdip; 5058 dev_info_t *tgt_dip; 5059 struct scsi_vhci *vhci; 5060 char *guid; 5061 struct scsi_failover_ops *sfo; 5062 scsi_vhci_priv_t *svp = NULL; 5063 struct scsi_address *ap; 5064 struct scsi_pkt *pkt; 5065 int rval = MDI_FAILURE; 5066 mpapi_item_list_t *list_ptr; 5067 mpapi_lu_data_t *ld; 5068 5069 ASSERT(vdip != NULL); 5070 ASSERT(pip != NULL); 5071 5072 vhci = ddi_get_soft_state(vhci_softstate, ddi_get_instance(vdip)); 5073 ASSERT(vhci != NULL); 5074 5075 pdip = mdi_pi_get_phci(pip); 5076 hba = ddi_get_driver_private(pdip); 5077 ASSERT(hba != NULL); 5078 5079 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(pip); 5080 ASSERT(svp != NULL); 5081 5082 cdip = mdi_pi_get_client(pip); 5083 ASSERT(cdip != NULL); 5084 if (ddi_prop_lookup_string(DDI_DEV_T_ANY, cdip, PROPFLAGS, 5085 MDI_CLIENT_GUID_PROP, &guid) != DDI_SUCCESS) { 5086 VHCI_DEBUG(1, (CE_WARN, NULL, "vhci_path_online: lun guid " 5087 "property failed")); 5088 goto failure; 5089 } 5090 5091 vlun = vhci_lun_lookup(cdip); 5092 ASSERT(vlun != NULL); 5093 5094 ddi_prop_free(guid); 5095 5096 vlun->svl_dip = mdi_pi_get_client(pip); 5097 ASSERT(vlun->svl_dip != NULL); 5098 5099 psd = svp->svp_psd; 5100 ASSERT(psd != NULL); 5101 5102 ap = &psd->sd_address; 5103 5104 /* 5105 * Get inquiry data into pathinfo related scsi_device structure. 5106 * Free sq_inq when pathinfo related scsi_device structure is destroyed 5107 * by vhci_pathinfo_uninit(). In other words, vhci maintains its own 5108 * copy of scsi_device and scsi_inquiry data on a per-path basis. 5109 */ 5110 if (scsi_probe(psd, SLEEP_FUNC) != SCSIPROBE_EXISTS) { 5111 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_pathinfo_online: " 5112 "scsi_probe failed path:%p rval:%x\n", (void *)pip, rval)); 5113 rval = MDI_FAILURE; 5114 goto failure; 5115 } 5116 5117 /* 5118 * See if we have a failover module to support the device. 5119 * 5120 * We re-probe to determine the failover ops for each path. This 5121 * is done in case there are any path-specific side-effects associated 5122 * with the sfo_device_probe implementation. 5123 * 5124 * Give the first successfull sfo_device_probe the opportunity to 5125 * establish 'ctpriv', vlun/client private data. The ctpriv will 5126 * then be passed into the failover module on all other sfo_device_*() 5127 * operations (and must be freed by sfo_device_unprobe implementation). 5128 * 5129 * NOTE: While sfo_device_probe is done once per path, 5130 * sfo_device_unprobe only occurs once - when the vlun is destroyed. 5131 * 5132 * NOTE: We don't currently support per-path fops private data 5133 * mechanism. 5134 */ 5135 sfo = vhci_dev_fo(vdip, psd, 5136 &vlun->svl_fops_ctpriv, &vlun->svl_fops_name); 5137 5138 /* check path configuration result with current vlun state */ 5139 if (((sfo && vlun->svl_fops) && (sfo != vlun->svl_fops)) || 5140 (sfo && vlun->svl_not_supported) || 5141 ((sfo == NULL) && vlun->svl_fops)) { 5142 /* Getting different results for different paths. */ 5143 VHCI_DEBUG(1, (CE_NOTE, vhci->vhci_dip, 5144 "!vhci_pathinfo_online: dev (path 0x%p) contradiction\n", 5145 (void *)pip)); 5146 cmn_err(CE_WARN, "scsi_vhci: failover contradiction: " 5147 "'%s'.vs.'%s': path %s\n", 5148 vlun->svl_fops ? vlun->svl_fops->sfo_name : "NULL", 5149 sfo ? sfo->sfo_name : "NULL", mdi_pi_pathname(pip)); 5150 vlun->svl_not_supported = 1; 5151 rval = MDI_NOT_SUPPORTED; 5152 goto done; 5153 } else if (sfo == NULL) { 5154 /* No failover module - device not supported under vHCI. */ 5155 VHCI_DEBUG(1, (CE_NOTE, vhci->vhci_dip, 5156 "!vhci_pathinfo_online: dev (path 0x%p) not " 5157 "supported\n", (void *)pip)); 5158 5159 /* XXX does this contradict vhci_is_dev_supported ? */ 5160 vlun->svl_not_supported = 1; 5161 rval = MDI_NOT_SUPPORTED; 5162 goto done; 5163 } 5164 5165 /* failover supported for device - save failover_ops in vlun */ 5166 vlun->svl_fops = sfo; 5167 ASSERT(vlun->svl_fops_name != NULL); 5168 5169 /* 5170 * Obtain the device-type based mpxio options as specified in 5171 * scsi_vhci.conf file. 5172 * 5173 * NOTE: currently, the end result is a call to 5174 * mdi_set_lb_region_size(). 5175 */ 5176 tgt_dip = psd->sd_dev; 5177 ASSERT(tgt_dip != NULL); 5178 vhci_get_device_type_mpxio_options(vdip, tgt_dip, psd); 5179 5180 /* 5181 * if PGR is active, revalidate key and register on this path also, 5182 * if key is still valid 5183 */ 5184 sema_p(&vlun->svl_pgr_sema); 5185 if (vlun->svl_pgr_active) { 5186 rval = vhci_pgr_validate_and_register(svp); 5187 if (rval != 1) { 5188 rval = MDI_FAILURE; 5189 sema_v(&vlun->svl_pgr_sema); 5190 goto failure; 5191 } 5192 } 5193 sema_v(&vlun->svl_pgr_sema); 5194 5195 if (svp->svp_new_path) { 5196 /* 5197 * Last chance to perform any cleanup operations on this 5198 * new path before making this path completely online. 5199 */ 5200 svp->svp_new_path = 0; 5201 5202 /* 5203 * If scsi_vhci knows the lun is alread RESERVE'd, 5204 * then skip the issue of RELEASE on new path. 5205 */ 5206 if ((vlun->svl_flags & VLUN_RESERVE_ACTIVE_FLG) == 0) { 5207 /* 5208 * Issue SCSI-2 RELEASE only for the first time on 5209 * a new path just in case the host rebooted and 5210 * a reservation is still pending on this path. 5211 * IBM Shark storage does not clear RESERVE upon 5212 * host reboot. 5213 */ 5214 pkt = scsi_init_pkt(ap, NULL, NULL, CDB_GROUP0, 5215 sizeof (struct scsi_arq_status), 0, 0, 5216 SLEEP_FUNC, NULL); 5217 if (pkt == NULL) { 5218 VHCI_DEBUG(1, (CE_NOTE, NULL, 5219 "!vhci_pathinfo_online: " 5220 "Release init_pkt failed :%p\n", 5221 (void *)pip)); 5222 rval = MDI_FAILURE; 5223 goto failure; 5224 } 5225 pkt->pkt_cdbp[0] = SCMD_RELEASE; 5226 pkt->pkt_time = 60; 5227 5228 VHCI_DEBUG(1, (CE_NOTE, NULL, 5229 "!vhci_path_online: path:%p " 5230 "Issued SCSI-2 RELEASE\n", (void *)pip)); 5231 5232 /* Ignore the return value */ 5233 (void) vhci_do_scsi_cmd(pkt); 5234 scsi_destroy_pkt(pkt); 5235 } 5236 } 5237 5238 rval = vhci_update_pathinfo(psd, pip, sfo, vlun, vhci); 5239 if (rval == MDI_FAILURE) { 5240 goto failure; 5241 } 5242 5243 /* Initialize MP-API data */ 5244 vhci_update_mpapi_data(vhci, vlun, pip); 5245 5246 /* 5247 * MP-API also needs the Inquiry data to be maintained in the 5248 * mp_vendor_prop_t structure, so find the lun and update its 5249 * structure with this data. 5250 */ 5251 list_ptr = (mpapi_item_list_t *)vhci_get_mpapi_item(vhci, NULL, 5252 MP_OBJECT_TYPE_MULTIPATH_LU, (void *)vlun); 5253 ld = (mpapi_lu_data_t *)list_ptr->item->idata; 5254 if (ld != NULL) { 5255 bcopy(psd->sd_inq->inq_vid, ld->prop.prodInfo.vendor, 8); 5256 bcopy(psd->sd_inq->inq_pid, ld->prop.prodInfo.product, 16); 5257 bcopy(psd->sd_inq->inq_revision, ld->prop.prodInfo.revision, 4); 5258 } else { 5259 VHCI_DEBUG(1, (CE_WARN, NULL, "!vhci_pathinfo_online: " 5260 "mpapi_lu_data_t is NULL")); 5261 } 5262 5263 /* create kstats for path */ 5264 vhci_kstat_create_pathinfo(pip); 5265 5266 done: 5267 mutex_enter(&vhci_global_mutex); 5268 cv_broadcast(&vhci_cv); 5269 mutex_exit(&vhci_global_mutex); 5270 5271 if (vlun->svl_setcap_done) { 5272 (void) vhci_pHCI_cap(ap, "sector-size", 5273 vlun->svl_sector_size, 1, pip); 5274 } 5275 5276 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_path_online: path:%p\n", 5277 (void *)pip)); 5278 5279 failure: 5280 return (rval); 5281 } 5282 5283 /* 5284 * path offline handler. Release all bindings that will not be 5285 * released by the normal packet transport/completion code path. 5286 * Since we don't (presently) keep any bindings alive outside of 5287 * the in-transport packets (which will be released on completion) 5288 * there is not much to do here. 5289 */ 5290 /* ARGSUSED */ 5291 static int 5292 vhci_pathinfo_offline(dev_info_t *vdip, mdi_pathinfo_t *pip, int flags) 5293 { 5294 scsi_hba_tran_t *hba = NULL; 5295 struct scsi_device *psd = NULL; 5296 dev_info_t *pdip = NULL; 5297 dev_info_t *cdip = NULL; 5298 scsi_vhci_priv_t *svp = NULL; 5299 5300 ASSERT(vdip != NULL); 5301 ASSERT(pip != NULL); 5302 5303 pdip = mdi_pi_get_phci(pip); 5304 ASSERT(pdip != NULL); 5305 if (pdip == NULL) { 5306 VHCI_DEBUG(1, (CE_WARN, vdip, "Invalid path 0x%p: NULL " 5307 "phci dip", (void *)pip)); 5308 return (MDI_FAILURE); 5309 } 5310 5311 cdip = mdi_pi_get_client(pip); 5312 ASSERT(cdip != NULL); 5313 if (cdip == NULL) { 5314 VHCI_DEBUG(1, (CE_WARN, vdip, "Invalid path 0x%p: NULL " 5315 "client dip", (void *)pip)); 5316 return (MDI_FAILURE); 5317 } 5318 5319 hba = ddi_get_driver_private(pdip); 5320 ASSERT(hba != NULL); 5321 5322 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(pip); 5323 if (svp == NULL) { 5324 /* 5325 * mdi_pathinfo node in INIT state can have vHCI private 5326 * information set to null 5327 */ 5328 VHCI_DEBUG(1, (CE_NOTE, vdip, "!vhci_pathinfo_offline: " 5329 "svp is NULL for pip 0x%p\n", (void *)pip)); 5330 return (MDI_SUCCESS); 5331 } 5332 5333 psd = svp->svp_psd; 5334 ASSERT(psd != NULL); 5335 5336 mutex_enter(&svp->svp_mutex); 5337 5338 VHCI_DEBUG(1, (CE_NOTE, vdip, "!vhci_pathinfo_offline: " 5339 "%d cmds pending on path: 0x%p\n", svp->svp_cmds, (void *)pip)); 5340 while (svp->svp_cmds != 0) { 5341 if (cv_reltimedwait(&svp->svp_cv, &svp->svp_mutex, 5342 drv_usectohz(vhci_path_quiesce_timeout * 1000000), 5343 TR_CLOCK_TICK) == -1) { 5344 /* 5345 * The timeout time reached without the condition 5346 * being signaled. 5347 */ 5348 VHCI_DEBUG(1, (CE_NOTE, vdip, "!vhci_pathinfo_offline: " 5349 "Timeout reached on path 0x%p without the cond\n", 5350 (void *)pip)); 5351 VHCI_DEBUG(1, (CE_NOTE, vdip, "!vhci_pathinfo_offline: " 5352 "%d cmds still pending on path: 0x%p\n", 5353 svp->svp_cmds, (void *)pip)); 5354 break; 5355 } 5356 } 5357 mutex_exit(&svp->svp_mutex); 5358 5359 /* 5360 * Check to see if this vlun has an active SCSI-II RESERVE. And this 5361 * is the pip for the path that has been reserved. 5362 * If so clear the reservation by sending a reset, so the host will not 5363 * get a reservation conflict. Reset the flag VLUN_RESERVE_ACTIVE_FLG 5364 * for this lun. Also a reset notify is sent to the target driver 5365 * just in case the POR check condition is cleared by some other layer 5366 * in the stack. 5367 */ 5368 if (svp->svp_svl->svl_flags & VLUN_RESERVE_ACTIVE_FLG) { 5369 if (pip == svp->svp_svl->svl_resrv_pip) { 5370 if (vhci_recovery_reset(svp->svp_svl, 5371 &svp->svp_psd->sd_address, TRUE, 5372 VHCI_DEPTH_TARGET) == 0) { 5373 VHCI_DEBUG(1, (CE_NOTE, NULL, 5374 "!vhci_pathinfo_offline (pip:%p):" 5375 "reset failed, retrying\n", (void *)pip)); 5376 delay(1 * drv_usectohz(1000000)); 5377 if (vhci_recovery_reset(svp->svp_svl, 5378 &svp->svp_psd->sd_address, TRUE, 5379 VHCI_DEPTH_TARGET) == 0) { 5380 VHCI_DEBUG(1, (CE_NOTE, NULL, 5381 "!vhci_pathinfo_offline " 5382 "(pip:%p): reset failed, " 5383 "giving up!\n", (void *)pip)); 5384 } 5385 } 5386 svp->svp_svl->svl_flags &= ~VLUN_RESERVE_ACTIVE_FLG; 5387 } 5388 } 5389 5390 mdi_pi_set_state(pip, MDI_PATHINFO_STATE_OFFLINE); 5391 vhci_mpapi_set_path_state(vdip, pip, MP_DRVR_PATH_STATE_REMOVED); 5392 5393 VHCI_DEBUG(1, (CE_NOTE, NULL, 5394 "!vhci_pathinfo_offline: offlined path 0x%p\n", (void *)pip)); 5395 return (MDI_SUCCESS); 5396 } 5397 5398 5399 /* 5400 * routine for SCSI VHCI IOCTL implementation. 5401 */ 5402 /* ARGSUSED */ 5403 static int 5404 vhci_ctl(dev_t dev, int cmd, intptr_t data, int mode, cred_t *credp, int *rval) 5405 { 5406 struct scsi_vhci *vhci; 5407 dev_info_t *vdip; 5408 mdi_pathinfo_t *pip; 5409 int instance, held; 5410 int retval = 0; 5411 caddr_t phci_path = NULL, client_path = NULL; 5412 caddr_t paddr = NULL; 5413 sv_iocdata_t ioc; 5414 sv_iocdata_t *pioc = &ioc; 5415 sv_switch_to_cntlr_iocdata_t iocsc; 5416 sv_switch_to_cntlr_iocdata_t *piocsc = &iocsc; 5417 caddr_t s; 5418 scsi_vhci_lun_t *vlun; 5419 struct scsi_failover_ops *fo; 5420 char *pclass; 5421 5422 /* Check for validity of vhci structure */ 5423 vhci = ddi_get_soft_state(vhci_softstate, MINOR2INST(getminor(dev))); 5424 if (vhci == NULL) { 5425 return (ENXIO); 5426 } 5427 5428 mutex_enter(&vhci->vhci_mutex); 5429 if ((vhci->vhci_state & VHCI_STATE_OPEN) == 0) { 5430 mutex_exit(&vhci->vhci_mutex); 5431 return (ENXIO); 5432 } 5433 mutex_exit(&vhci->vhci_mutex); 5434 5435 /* Get the vhci dip */ 5436 vdip = vhci->vhci_dip; 5437 ASSERT(vdip != NULL); 5438 instance = ddi_get_instance(vdip); 5439 5440 /* Allocate memory for getting parameters from userland */ 5441 phci_path = kmem_zalloc(MAXPATHLEN, KM_SLEEP); 5442 client_path = kmem_zalloc(MAXPATHLEN, KM_SLEEP); 5443 paddr = kmem_zalloc(MAXNAMELEN, KM_SLEEP); 5444 5445 /* 5446 * Set a local variable indicating the ioctl name. Used for 5447 * printing debug strings. 5448 */ 5449 switch (cmd) { 5450 case SCSI_VHCI_GET_CLIENT_MULTIPATH_INFO: 5451 s = "GET_CLIENT_MULTIPATH_INFO"; 5452 break; 5453 5454 case SCSI_VHCI_GET_PHCI_MULTIPATH_INFO: 5455 s = "GET_PHCI_MULTIPATH_INFO"; 5456 break; 5457 5458 case SCSI_VHCI_GET_CLIENT_NAME: 5459 s = "GET_CLIENT_NAME"; 5460 break; 5461 5462 case SCSI_VHCI_PATH_ONLINE: 5463 s = "PATH_ONLINE"; 5464 break; 5465 5466 case SCSI_VHCI_PATH_OFFLINE: 5467 s = "PATH_OFFLINE"; 5468 break; 5469 5470 case SCSI_VHCI_PATH_STANDBY: 5471 s = "PATH_STANDBY"; 5472 break; 5473 5474 case SCSI_VHCI_PATH_TEST: 5475 s = "PATH_TEST"; 5476 break; 5477 5478 case SCSI_VHCI_SWITCH_TO_CNTLR: 5479 s = "SWITCH_TO_CNTLR"; 5480 break; 5481 case SCSI_VHCI_PATH_DISABLE: 5482 s = "PATH_DISABLE"; 5483 break; 5484 case SCSI_VHCI_PATH_ENABLE: 5485 s = "PATH_ENABLE"; 5486 break; 5487 5488 case SCSI_VHCI_GET_TARGET_LONGNAME: 5489 s = "GET_TARGET_LONGNAME"; 5490 break; 5491 5492 #ifdef DEBUG 5493 case SCSI_VHCI_CONFIGURE_PHCI: 5494 s = "CONFIGURE_PHCI"; 5495 break; 5496 5497 case SCSI_VHCI_UNCONFIGURE_PHCI: 5498 s = "UNCONFIGURE_PHCI"; 5499 break; 5500 #endif 5501 5502 default: 5503 s = "Unknown"; 5504 vhci_log(CE_NOTE, vdip, 5505 "!vhci%d: ioctl %x (unsupported ioctl)", instance, cmd); 5506 retval = ENOTSUP; 5507 break; 5508 } 5509 if (retval != 0) { 5510 goto end; 5511 } 5512 5513 VHCI_DEBUG(6, (CE_WARN, vdip, "!vhci%d: ioctl <%s>", instance, s)); 5514 5515 /* 5516 * Get IOCTL parameters from userland 5517 */ 5518 switch (cmd) { 5519 case SCSI_VHCI_GET_CLIENT_MULTIPATH_INFO: 5520 case SCSI_VHCI_GET_PHCI_MULTIPATH_INFO: 5521 case SCSI_VHCI_GET_CLIENT_NAME: 5522 case SCSI_VHCI_PATH_ONLINE: 5523 case SCSI_VHCI_PATH_OFFLINE: 5524 case SCSI_VHCI_PATH_STANDBY: 5525 case SCSI_VHCI_PATH_TEST: 5526 case SCSI_VHCI_PATH_DISABLE: 5527 case SCSI_VHCI_PATH_ENABLE: 5528 case SCSI_VHCI_GET_TARGET_LONGNAME: 5529 #ifdef DEBUG 5530 case SCSI_VHCI_CONFIGURE_PHCI: 5531 case SCSI_VHCI_UNCONFIGURE_PHCI: 5532 #endif 5533 retval = vhci_get_iocdata((const void *)data, pioc, mode, s); 5534 break; 5535 5536 case SCSI_VHCI_SWITCH_TO_CNTLR: 5537 retval = vhci_get_iocswitchdata((const void *)data, piocsc, 5538 mode, s); 5539 break; 5540 } 5541 if (retval != 0) { 5542 goto end; 5543 } 5544 5545 5546 /* 5547 * Process the IOCTL 5548 */ 5549 switch (cmd) { 5550 case SCSI_VHCI_GET_CLIENT_MULTIPATH_INFO: 5551 { 5552 uint_t num_paths; /* Num paths to client dev */ 5553 sv_path_info_t *upibuf = NULL; /* To keep userland values */ 5554 sv_path_info_t *kpibuf = NULL; /* Kernel data for ioctls */ 5555 dev_info_t *cdip; /* Client device dip */ 5556 5557 if (pioc->ret_elem == NULL) { 5558 retval = EINVAL; 5559 break; 5560 } 5561 5562 /* Get client device path from user land */ 5563 if (vhci_ioc_get_client_path(pioc, client_path, mode, s)) { 5564 retval = EFAULT; 5565 break; 5566 } 5567 5568 VHCI_DEBUG(6, (CE_WARN, vdip, "!vhci_ioctl: ioctl <%s> " 5569 "client <%s>", s, client_path)); 5570 5571 /* Get number of paths to this client device */ 5572 if ((cdip = mdi_client_path2devinfo(vdip, client_path)) 5573 == NULL) { 5574 retval = ENXIO; 5575 VHCI_DEBUG(1, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5576 "client dip doesn't exist. invalid path <%s>", 5577 s, client_path)); 5578 break; 5579 } 5580 num_paths = mdi_client_get_path_count(cdip); 5581 5582 if (ddi_copyout(&num_paths, pioc->ret_elem, 5583 sizeof (num_paths), mode)) { 5584 VHCI_DEBUG(1, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5585 "num_paths copyout failed", s)); 5586 retval = EFAULT; 5587 break; 5588 } 5589 5590 /* If user just wanted num_paths, then return */ 5591 if (pioc->buf_elem == 0 || pioc->ret_buf == NULL || 5592 num_paths == 0) { 5593 break; 5594 } 5595 5596 /* Set num_paths to value as much as can be sent to userland */ 5597 if (num_paths > pioc->buf_elem) { 5598 num_paths = pioc->buf_elem; 5599 } 5600 5601 /* Allocate memory and get userland pointers */ 5602 if (vhci_ioc_alloc_pathinfo(&upibuf, &kpibuf, num_paths, 5603 pioc, mode, s) != 0) { 5604 retval = EFAULT; 5605 break; 5606 } 5607 ASSERT(upibuf != NULL); 5608 ASSERT(kpibuf != NULL); 5609 5610 /* 5611 * Get the path information and send it to userland. 5612 */ 5613 if (vhci_get_client_path_list(cdip, kpibuf, num_paths) 5614 != MDI_SUCCESS) { 5615 retval = ENXIO; 5616 vhci_ioc_free_pathinfo(upibuf, kpibuf, num_paths); 5617 break; 5618 } 5619 5620 if (vhci_ioc_send_pathinfo(upibuf, kpibuf, num_paths, 5621 pioc, mode, s)) { 5622 retval = EFAULT; 5623 vhci_ioc_free_pathinfo(upibuf, kpibuf, num_paths); 5624 break; 5625 } 5626 5627 /* Free the memory allocated for path information */ 5628 vhci_ioc_free_pathinfo(upibuf, kpibuf, num_paths); 5629 break; 5630 } 5631 5632 case SCSI_VHCI_GET_PHCI_MULTIPATH_INFO: 5633 { 5634 uint_t num_paths; /* Num paths to client dev */ 5635 sv_path_info_t *upibuf = NULL; /* To keep userland values */ 5636 sv_path_info_t *kpibuf = NULL; /* Kernel data for ioctls */ 5637 dev_info_t *pdip; /* PHCI device dip */ 5638 5639 if (pioc->ret_elem == NULL) { 5640 retval = EINVAL; 5641 break; 5642 } 5643 5644 /* Get PHCI device path from user land */ 5645 if (vhci_ioc_get_phci_path(pioc, phci_path, mode, s)) { 5646 retval = EFAULT; 5647 break; 5648 } 5649 5650 VHCI_DEBUG(6, (CE_WARN, vdip, 5651 "!vhci_ioctl: ioctl <%s> phci <%s>", s, phci_path)); 5652 5653 /* Get number of devices associated with this PHCI device */ 5654 if ((pdip = mdi_phci_path2devinfo(vdip, phci_path)) == NULL) { 5655 VHCI_DEBUG(1, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5656 "phci dip doesn't exist. invalid path <%s>", 5657 s, phci_path)); 5658 retval = ENXIO; 5659 break; 5660 } 5661 5662 num_paths = mdi_phci_get_path_count(pdip); 5663 5664 if (ddi_copyout(&num_paths, pioc->ret_elem, 5665 sizeof (num_paths), mode)) { 5666 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5667 "num_paths copyout failed", s)); 5668 retval = EFAULT; 5669 break; 5670 } 5671 5672 /* If user just wanted num_paths, then return */ 5673 if (pioc->buf_elem == 0 || pioc->ret_buf == NULL || 5674 num_paths == 0) { 5675 break; 5676 } 5677 5678 /* Set num_paths to value as much as can be sent to userland */ 5679 if (num_paths > pioc->buf_elem) { 5680 num_paths = pioc->buf_elem; 5681 } 5682 5683 /* Allocate memory and get userland pointers */ 5684 if (vhci_ioc_alloc_pathinfo(&upibuf, &kpibuf, num_paths, 5685 pioc, mode, s) != 0) { 5686 retval = EFAULT; 5687 break; 5688 } 5689 ASSERT(upibuf != NULL); 5690 ASSERT(kpibuf != NULL); 5691 5692 /* 5693 * Get the path information and send it to userland. 5694 */ 5695 if (vhci_get_phci_path_list(pdip, kpibuf, num_paths) 5696 != MDI_SUCCESS) { 5697 retval = ENXIO; 5698 vhci_ioc_free_pathinfo(upibuf, kpibuf, num_paths); 5699 break; 5700 } 5701 5702 if (vhci_ioc_send_pathinfo(upibuf, kpibuf, num_paths, 5703 pioc, mode, s)) { 5704 retval = EFAULT; 5705 vhci_ioc_free_pathinfo(upibuf, kpibuf, num_paths); 5706 break; 5707 } 5708 5709 /* Free the memory allocated for path information */ 5710 vhci_ioc_free_pathinfo(upibuf, kpibuf, num_paths); 5711 break; 5712 } 5713 5714 case SCSI_VHCI_GET_CLIENT_NAME: 5715 { 5716 dev_info_t *cdip, *pdip; 5717 5718 /* Get PHCI path and device address from user land */ 5719 if (vhci_ioc_get_phci_path(pioc, phci_path, mode, s) || 5720 vhci_ioc_get_paddr(pioc, paddr, mode, s)) { 5721 retval = EFAULT; 5722 break; 5723 } 5724 5725 VHCI_DEBUG(6, (CE_WARN, vdip, "!vhci_ioctl: ioctl <%s> " 5726 "phci <%s>, paddr <%s>", s, phci_path, paddr)); 5727 5728 /* Get the PHCI dip */ 5729 if ((pdip = mdi_phci_path2devinfo(vdip, phci_path)) == NULL) { 5730 VHCI_DEBUG(1, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5731 "phci dip doesn't exist. invalid path <%s>", 5732 s, phci_path)); 5733 retval = ENXIO; 5734 break; 5735 } 5736 5737 if ((pip = mdi_pi_find(pdip, NULL, paddr)) == NULL) { 5738 VHCI_DEBUG(1, (CE_WARN, vdip, "!vhci_ioctl: ioctl <%s> " 5739 "pathinfo doesn't exist. invalid device addr", s)); 5740 retval = ENXIO; 5741 break; 5742 } 5743 5744 /* Get the client device pathname and send to userland */ 5745 cdip = mdi_pi_get_client(pip); 5746 vhci_ioc_devi_to_path(cdip, client_path); 5747 5748 VHCI_DEBUG(6, (CE_WARN, vdip, "!vhci_ioctl: ioctl <%s> " 5749 "client <%s>", s, client_path)); 5750 5751 if (vhci_ioc_send_client_path(client_path, pioc, mode, s)) { 5752 retval = EFAULT; 5753 break; 5754 } 5755 break; 5756 } 5757 5758 case SCSI_VHCI_PATH_ONLINE: 5759 case SCSI_VHCI_PATH_OFFLINE: 5760 case SCSI_VHCI_PATH_STANDBY: 5761 case SCSI_VHCI_PATH_TEST: 5762 { 5763 dev_info_t *pdip; /* PHCI dip */ 5764 5765 /* Get PHCI path and device address from user land */ 5766 if (vhci_ioc_get_phci_path(pioc, phci_path, mode, s) || 5767 vhci_ioc_get_paddr(pioc, paddr, mode, s)) { 5768 retval = EFAULT; 5769 break; 5770 } 5771 5772 VHCI_DEBUG(6, (CE_WARN, vdip, "!vhci_ioctl: ioctl <%s> " 5773 "phci <%s>, paddr <%s>", s, phci_path, paddr)); 5774 5775 /* Get the PHCI dip */ 5776 if ((pdip = mdi_phci_path2devinfo(vdip, phci_path)) == NULL) { 5777 VHCI_DEBUG(1, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5778 "phci dip doesn't exist. invalid path <%s>", 5779 s, phci_path)); 5780 retval = ENXIO; 5781 break; 5782 } 5783 5784 if ((pip = mdi_pi_find(pdip, NULL, paddr)) == NULL) { 5785 VHCI_DEBUG(1, (CE_WARN, vdip, "!vhci_ioctl: ioctl <%s> " 5786 "pathinfo doesn't exist. invalid device addr", s)); 5787 retval = ENXIO; 5788 break; 5789 } 5790 5791 VHCI_DEBUG(6, (CE_WARN, vdip, "!vhci_ioctl: ioctl <%s> " 5792 "Calling MDI function to change device state", s)); 5793 5794 switch (cmd) { 5795 case SCSI_VHCI_PATH_ONLINE: 5796 retval = mdi_pi_online(pip, 0); 5797 break; 5798 5799 case SCSI_VHCI_PATH_OFFLINE: 5800 retval = mdi_pi_offline(pip, 0); 5801 break; 5802 5803 case SCSI_VHCI_PATH_STANDBY: 5804 retval = mdi_pi_standby(pip, 0); 5805 break; 5806 5807 case SCSI_VHCI_PATH_TEST: 5808 break; 5809 } 5810 break; 5811 } 5812 5813 case SCSI_VHCI_SWITCH_TO_CNTLR: 5814 { 5815 dev_info_t *cdip; 5816 struct scsi_device *devp; 5817 5818 /* Get the client device pathname */ 5819 if (ddi_copyin(piocsc->client, client_path, 5820 MAXPATHLEN, mode)) { 5821 VHCI_DEBUG(2, (CE_WARN, vdip, "!vhci_ioctl: ioctl <%s> " 5822 "client_path copyin failed", s)); 5823 retval = EFAULT; 5824 break; 5825 } 5826 5827 /* Get the path class to which user wants to switch */ 5828 if (ddi_copyin(piocsc->class, paddr, MAXNAMELEN, mode)) { 5829 VHCI_DEBUG(2, (CE_WARN, vdip, "!vhci_ioctl: ioctl <%s> " 5830 "controller_class copyin failed", s)); 5831 retval = EFAULT; 5832 break; 5833 } 5834 5835 /* Perform validity checks */ 5836 if ((cdip = mdi_client_path2devinfo(vdip, 5837 client_path)) == NULL) { 5838 VHCI_DEBUG(1, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5839 "client dip doesn't exist. invalid path <%s>", 5840 s, client_path)); 5841 retval = ENXIO; 5842 break; 5843 } 5844 5845 VHCI_DEBUG(6, (CE_WARN, vdip, "!vhci_ioctl: Calling MDI func " 5846 "to switch controller")); 5847 VHCI_DEBUG(6, (CE_WARN, vdip, "!vhci_ioctl: client <%s> " 5848 "class <%s>", client_path, paddr)); 5849 5850 if (strcmp(paddr, PCLASS_PRIMARY) && 5851 strcmp(paddr, PCLASS_SECONDARY)) { 5852 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5853 "invalid path class <%s>", s, paddr)); 5854 retval = ENXIO; 5855 break; 5856 } 5857 5858 devp = ddi_get_driver_private(cdip); 5859 if (devp == NULL) { 5860 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5861 "invalid scsi device <%s>", s, client_path)); 5862 retval = ENXIO; 5863 break; 5864 } 5865 vlun = ADDR2VLUN(&devp->sd_address); 5866 ASSERT(vlun); 5867 5868 /* 5869 * Checking to see if device has only one pclass, PRIMARY. 5870 * If so this device doesn't support failovers. Assumed 5871 * that the devices with one pclass is PRIMARY, as thats the 5872 * case today. If this is not true and in future other 5873 * symmetric devices are supported with other pclass, this 5874 * IOCTL shall have to be overhauled anyways as now the only 5875 * arguments it accepts are PRIMARY and SECONDARY. 5876 */ 5877 fo = vlun->svl_fops; 5878 if (fo->sfo_pathclass_next(PCLASS_PRIMARY, &pclass, 5879 vlun->svl_fops_ctpriv)) { 5880 retval = ENOTSUP; 5881 break; 5882 } 5883 5884 VHCI_HOLD_LUN(vlun, VH_SLEEP, held); 5885 mutex_enter(&vlun->svl_mutex); 5886 if (vlun->svl_active_pclass != NULL) { 5887 if (strcmp(vlun->svl_active_pclass, paddr) == 0) { 5888 mutex_exit(&vlun->svl_mutex); 5889 retval = EALREADY; 5890 VHCI_RELEASE_LUN(vlun); 5891 break; 5892 } 5893 } 5894 mutex_exit(&vlun->svl_mutex); 5895 /* Call mdi function to cause a switch over */ 5896 retval = mdi_failover(vdip, cdip, MDI_FAILOVER_SYNC); 5897 if (retval == MDI_SUCCESS) { 5898 retval = 0; 5899 } else if (retval == MDI_BUSY) { 5900 retval = EBUSY; 5901 } else { 5902 retval = EIO; 5903 } 5904 VHCI_RELEASE_LUN(vlun); 5905 break; 5906 } 5907 5908 case SCSI_VHCI_PATH_ENABLE: 5909 case SCSI_VHCI_PATH_DISABLE: 5910 { 5911 dev_info_t *cdip, *pdip; 5912 5913 /* 5914 * Get client device path from user land 5915 */ 5916 if (vhci_ioc_get_client_path(pioc, client_path, mode, s)) { 5917 retval = EFAULT; 5918 break; 5919 } 5920 5921 /* 5922 * Get Phci device path from user land 5923 */ 5924 if (vhci_ioc_get_phci_path(pioc, phci_path, mode, s)) { 5925 retval = EFAULT; 5926 break; 5927 } 5928 5929 /* 5930 * Get the devinfo for the Phci. 5931 */ 5932 if ((pdip = mdi_phci_path2devinfo(vdip, phci_path)) == NULL) { 5933 VHCI_DEBUG(1, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5934 "phci dip doesn't exist. invalid path <%s>", 5935 s, phci_path)); 5936 retval = ENXIO; 5937 break; 5938 } 5939 5940 /* 5941 * If the client path is set to /scsi_vhci then we need 5942 * to do the operation on all the clients so set cdip to NULL. 5943 * Else, try to get the client dip. 5944 */ 5945 if (strcmp(client_path, "/scsi_vhci") == 0) { 5946 cdip = NULL; 5947 } else { 5948 if ((cdip = mdi_client_path2devinfo(vdip, 5949 client_path)) == NULL) { 5950 retval = ENXIO; 5951 VHCI_DEBUG(1, (CE_WARN, NULL, 5952 "!vhci_ioctl: ioctl <%s> client dip " 5953 "doesn't exist. invalid path <%s>", 5954 s, client_path)); 5955 break; 5956 } 5957 } 5958 5959 if (cmd == SCSI_VHCI_PATH_ENABLE) 5960 retval = mdi_pi_enable(cdip, pdip, USER_DISABLE); 5961 else 5962 retval = mdi_pi_disable(cdip, pdip, USER_DISABLE); 5963 5964 break; 5965 } 5966 5967 case SCSI_VHCI_GET_TARGET_LONGNAME: 5968 { 5969 uint_t pid = pioc->buf_elem; 5970 char *target_port; 5971 mod_hash_val_t hv; 5972 5973 /* targetmap lookup of 'target-port' by <pid> */ 5974 if (mod_hash_find(vhci_targetmap_bypid, 5975 (mod_hash_key_t)(uintptr_t)pid, &hv) != 0) { 5976 /* 5977 * NOTE: failure to find the mapping is OK for guid 5978 * based 'target-port' values. 5979 */ 5980 VHCI_DEBUG(3, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5981 "targetport mapping doesn't exist: pid %d", 5982 s, pid)); 5983 retval = ENXIO; 5984 break; 5985 } 5986 5987 /* copyout 'target-port' result */ 5988 target_port = (char *)hv; 5989 if (copyoutstr(target_port, pioc->addr, MAXNAMELEN, NULL)) { 5990 VHCI_DEBUG(1, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 5991 "targetport copyout failed: len: %d", 5992 s, (int)strlen(target_port))); 5993 retval = EFAULT; 5994 } 5995 break; 5996 } 5997 5998 #ifdef DEBUG 5999 case SCSI_VHCI_CONFIGURE_PHCI: 6000 { 6001 dev_info_t *pdip; 6002 6003 /* Get PHCI path and device address from user land */ 6004 if (vhci_ioc_get_phci_path(pioc, phci_path, mode, s)) { 6005 retval = EFAULT; 6006 break; 6007 } 6008 6009 VHCI_DEBUG(6, (CE_WARN, vdip, "!vhci_ioctl: ioctl <%s> " 6010 "phci <%s>", s, phci_path)); 6011 6012 /* Get the PHCI dip */ 6013 if ((pdip = e_ddi_hold_devi_by_path(phci_path, 0)) == NULL) { 6014 VHCI_DEBUG(3, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 6015 "phci dip doesn't exist. invalid path <%s>", 6016 s, phci_path)); 6017 retval = ENXIO; 6018 break; 6019 } 6020 6021 if (ndi_devi_config(pdip, 6022 NDI_DEVFS_CLEAN | NDI_DEVI_PERSIST) != NDI_SUCCESS) { 6023 retval = EIO; 6024 } 6025 6026 ddi_release_devi(pdip); 6027 break; 6028 } 6029 6030 case SCSI_VHCI_UNCONFIGURE_PHCI: 6031 { 6032 dev_info_t *pdip; 6033 6034 /* Get PHCI path and device address from user land */ 6035 if (vhci_ioc_get_phci_path(pioc, phci_path, mode, s)) { 6036 retval = EFAULT; 6037 break; 6038 } 6039 6040 VHCI_DEBUG(6, (CE_WARN, vdip, "!vhci_ioctl: ioctl <%s> " 6041 "phci <%s>", s, phci_path)); 6042 6043 /* Get the PHCI dip */ 6044 if ((pdip = e_ddi_hold_devi_by_path(phci_path, 0)) == NULL) { 6045 VHCI_DEBUG(3, (CE_WARN, NULL, "!vhci_ioctl: ioctl <%s> " 6046 "phci dip doesn't exist. invalid path <%s>", 6047 s, phci_path)); 6048 retval = ENXIO; 6049 break; 6050 } 6051 6052 if (ndi_devi_unconfig(pdip, 6053 NDI_DEVI_REMOVE | NDI_DEVFS_CLEAN) != NDI_SUCCESS) { 6054 retval = EBUSY; 6055 } 6056 6057 ddi_release_devi(pdip); 6058 break; 6059 } 6060 #endif 6061 } 6062 6063 end: 6064 /* Free the memory allocated above */ 6065 if (phci_path != NULL) { 6066 kmem_free(phci_path, MAXPATHLEN); 6067 } 6068 if (client_path != NULL) { 6069 kmem_free(client_path, MAXPATHLEN); 6070 } 6071 if (paddr != NULL) { 6072 kmem_free(paddr, MAXNAMELEN); 6073 } 6074 return (retval); 6075 } 6076 6077 /* 6078 * devctl IOCTL support for client device DR 6079 */ 6080 /* ARGSUSED */ 6081 int 6082 vhci_devctl(dev_t dev, int cmd, intptr_t arg, int mode, cred_t *credp, 6083 int *rvalp) 6084 { 6085 dev_info_t *self; 6086 dev_info_t *child; 6087 scsi_hba_tran_t *hba; 6088 struct devctl_iocdata *dcp; 6089 struct scsi_vhci *vhci; 6090 int rv = 0; 6091 int retval = 0; 6092 scsi_vhci_priv_t *svp; 6093 mdi_pathinfo_t *pip; 6094 6095 if ((vhci = ddi_get_soft_state(vhci_softstate, 6096 MINOR2INST(getminor(dev)))) == NULL) 6097 return (ENXIO); 6098 6099 /* 6100 * check if :devctl minor device has been opened 6101 */ 6102 mutex_enter(&vhci->vhci_mutex); 6103 if ((vhci->vhci_state & VHCI_STATE_OPEN) == 0) { 6104 mutex_exit(&vhci->vhci_mutex); 6105 return (ENXIO); 6106 } 6107 mutex_exit(&vhci->vhci_mutex); 6108 6109 self = vhci->vhci_dip; 6110 hba = ddi_get_driver_private(self); 6111 if (hba == NULL) 6112 return (ENXIO); 6113 6114 /* 6115 * We can use the generic implementation for these ioctls 6116 */ 6117 switch (cmd) { 6118 case DEVCTL_DEVICE_GETSTATE: 6119 case DEVCTL_DEVICE_ONLINE: 6120 case DEVCTL_DEVICE_OFFLINE: 6121 case DEVCTL_DEVICE_REMOVE: 6122 case DEVCTL_BUS_GETSTATE: 6123 return (ndi_devctl_ioctl(self, cmd, arg, mode, 0)); 6124 } 6125 6126 /* 6127 * read devctl ioctl data 6128 */ 6129 if (ndi_dc_allochdl((void *)arg, &dcp) != NDI_SUCCESS) 6130 return (EFAULT); 6131 6132 switch (cmd) { 6133 6134 case DEVCTL_DEVICE_RESET: 6135 /* 6136 * lookup and hold child device 6137 */ 6138 if ((child = ndi_devi_find(self, ndi_dc_getname(dcp), 6139 ndi_dc_getaddr(dcp))) == NULL) { 6140 rv = ENXIO; 6141 break; 6142 } 6143 retval = mdi_select_path(child, NULL, 6144 (MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH), 6145 NULL, &pip); 6146 if ((retval != MDI_SUCCESS) || (pip == NULL)) { 6147 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_ioctl:" 6148 "Unable to get a path, dip 0x%p", (void *)child)); 6149 rv = ENXIO; 6150 break; 6151 } 6152 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(pip); 6153 if (vhci_recovery_reset(svp->svp_svl, 6154 &svp->svp_psd->sd_address, TRUE, 6155 VHCI_DEPTH_TARGET) == 0) { 6156 VHCI_DEBUG(1, (CE_NOTE, NULL, 6157 "!vhci_ioctl(pip:%p): " 6158 "reset failed\n", (void *)pip)); 6159 rv = ENXIO; 6160 } 6161 mdi_rele_path(pip); 6162 break; 6163 6164 case DEVCTL_BUS_QUIESCE: 6165 case DEVCTL_BUS_UNQUIESCE: 6166 case DEVCTL_BUS_RESET: 6167 case DEVCTL_BUS_RESETALL: 6168 #ifdef DEBUG 6169 case DEVCTL_BUS_CONFIGURE: 6170 case DEVCTL_BUS_UNCONFIGURE: 6171 #endif 6172 rv = ENOTSUP; 6173 break; 6174 6175 default: 6176 rv = ENOTTY; 6177 } /* end of outer switch */ 6178 6179 ndi_dc_freehdl(dcp); 6180 return (rv); 6181 } 6182 6183 /* 6184 * Routine to get the PHCI pathname from ioctl structures in userland 6185 */ 6186 /* ARGSUSED */ 6187 static int 6188 vhci_ioc_get_phci_path(sv_iocdata_t *pioc, caddr_t phci_path, 6189 int mode, caddr_t s) 6190 { 6191 int retval = 0; 6192 6193 if (ddi_copyin(pioc->phci, phci_path, MAXPATHLEN, mode)) { 6194 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_ioc_get_phci: ioctl <%s> " 6195 "phci_path copyin failed", s)); 6196 retval = EFAULT; 6197 } 6198 return (retval); 6199 6200 } 6201 6202 6203 /* 6204 * Routine to get the Client device pathname from ioctl structures in userland 6205 */ 6206 /* ARGSUSED */ 6207 static int 6208 vhci_ioc_get_client_path(sv_iocdata_t *pioc, caddr_t client_path, 6209 int mode, caddr_t s) 6210 { 6211 int retval = 0; 6212 6213 if (ddi_copyin(pioc->client, client_path, MAXPATHLEN, mode)) { 6214 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_ioc_get_client: " 6215 "ioctl <%s> client_path copyin failed", s)); 6216 retval = EFAULT; 6217 } 6218 return (retval); 6219 } 6220 6221 6222 /* 6223 * Routine to get physical device address from ioctl structure in userland 6224 */ 6225 /* ARGSUSED */ 6226 static int 6227 vhci_ioc_get_paddr(sv_iocdata_t *pioc, caddr_t paddr, int mode, caddr_t s) 6228 { 6229 int retval = 0; 6230 6231 if (ddi_copyin(pioc->addr, paddr, MAXNAMELEN, mode)) { 6232 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_ioc_get_paddr: " 6233 "ioctl <%s> device addr copyin failed", s)); 6234 retval = EFAULT; 6235 } 6236 return (retval); 6237 } 6238 6239 6240 /* 6241 * Routine to send client device pathname to userland. 6242 */ 6243 /* ARGSUSED */ 6244 static int 6245 vhci_ioc_send_client_path(caddr_t client_path, sv_iocdata_t *pioc, 6246 int mode, caddr_t s) 6247 { 6248 int retval = 0; 6249 6250 if (ddi_copyout(client_path, pioc->client, MAXPATHLEN, mode)) { 6251 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_ioc_send_client: " 6252 "ioctl <%s> client_path copyout failed", s)); 6253 retval = EFAULT; 6254 } 6255 return (retval); 6256 } 6257 6258 6259 /* 6260 * Routine to translated dev_info pointer (dip) to device pathname. 6261 */ 6262 static void 6263 vhci_ioc_devi_to_path(dev_info_t *dip, caddr_t path) 6264 { 6265 (void) ddi_pathname(dip, path); 6266 } 6267 6268 6269 /* 6270 * vhci_get_phci_path_list: 6271 * get information about devices associated with a 6272 * given PHCI device. 6273 * 6274 * Return Values: 6275 * path information elements 6276 */ 6277 int 6278 vhci_get_phci_path_list(dev_info_t *pdip, sv_path_info_t *pibuf, 6279 uint_t num_elems) 6280 { 6281 uint_t count, done; 6282 mdi_pathinfo_t *pip; 6283 sv_path_info_t *ret_pip; 6284 int status; 6285 size_t prop_size; 6286 int circular; 6287 6288 /* 6289 * Get the PHCI structure and retrieve the path information 6290 * from the GUID hash table. 6291 */ 6292 6293 ret_pip = pibuf; 6294 count = 0; 6295 6296 ndi_devi_enter(pdip, &circular); 6297 6298 done = (count >= num_elems); 6299 pip = mdi_get_next_client_path(pdip, NULL); 6300 while (pip && !done) { 6301 mdi_pi_lock(pip); 6302 (void) ddi_pathname(mdi_pi_get_phci(pip), 6303 ret_pip->device.ret_phci); 6304 (void) strcpy(ret_pip->ret_addr, mdi_pi_get_addr(pip)); 6305 (void) mdi_pi_get_state2(pip, &ret_pip->ret_state, 6306 &ret_pip->ret_ext_state); 6307 6308 status = mdi_prop_size(pip, &prop_size); 6309 if (status == MDI_SUCCESS && ret_pip->ret_prop.ret_buf_size) { 6310 *ret_pip->ret_prop.ret_buf_size = (uint_t)prop_size; 6311 } 6312 6313 #ifdef DEBUG 6314 if (status != MDI_SUCCESS) { 6315 VHCI_DEBUG(2, (CE_WARN, NULL, 6316 "!vhci_get_phci_path_list: " 6317 "phci <%s>, prop size failure 0x%x", 6318 ret_pip->device.ret_phci, status)); 6319 } 6320 #endif /* DEBUG */ 6321 6322 6323 if (status == MDI_SUCCESS && ret_pip->ret_prop.buf && 6324 prop_size && ret_pip->ret_prop.buf_size >= prop_size) { 6325 status = mdi_prop_pack(pip, 6326 &ret_pip->ret_prop.buf, 6327 ret_pip->ret_prop.buf_size); 6328 6329 #ifdef DEBUG 6330 if (status != MDI_SUCCESS) { 6331 VHCI_DEBUG(2, (CE_WARN, NULL, 6332 "!vhci_get_phci_path_list: " 6333 "phci <%s>, prop pack failure 0x%x", 6334 ret_pip->device.ret_phci, status)); 6335 } 6336 #endif /* DEBUG */ 6337 } 6338 6339 mdi_pi_unlock(pip); 6340 pip = mdi_get_next_client_path(pdip, pip); 6341 ret_pip++; 6342 count++; 6343 done = (count >= num_elems); 6344 } 6345 6346 ndi_devi_exit(pdip, circular); 6347 6348 return (MDI_SUCCESS); 6349 } 6350 6351 6352 /* 6353 * vhci_get_client_path_list: 6354 * get information about various paths associated with a 6355 * given client device. 6356 * 6357 * Return Values: 6358 * path information elements 6359 */ 6360 int 6361 vhci_get_client_path_list(dev_info_t *cdip, sv_path_info_t *pibuf, 6362 uint_t num_elems) 6363 { 6364 uint_t count, done; 6365 mdi_pathinfo_t *pip; 6366 sv_path_info_t *ret_pip; 6367 int status; 6368 size_t prop_size; 6369 int circular; 6370 6371 ret_pip = pibuf; 6372 count = 0; 6373 6374 ndi_devi_enter(cdip, &circular); 6375 6376 done = (count >= num_elems); 6377 pip = mdi_get_next_phci_path(cdip, NULL); 6378 while (pip && !done) { 6379 mdi_pi_lock(pip); 6380 (void) ddi_pathname(mdi_pi_get_phci(pip), 6381 ret_pip->device.ret_phci); 6382 (void) strcpy(ret_pip->ret_addr, mdi_pi_get_addr(pip)); 6383 (void) mdi_pi_get_state2(pip, &ret_pip->ret_state, 6384 &ret_pip->ret_ext_state); 6385 6386 status = mdi_prop_size(pip, &prop_size); 6387 if (status == MDI_SUCCESS && ret_pip->ret_prop.ret_buf_size) { 6388 *ret_pip->ret_prop.ret_buf_size = (uint_t)prop_size; 6389 } 6390 6391 #ifdef DEBUG 6392 if (status != MDI_SUCCESS) { 6393 VHCI_DEBUG(2, (CE_WARN, NULL, 6394 "!vhci_get_client_path_list: " 6395 "phci <%s>, prop size failure 0x%x", 6396 ret_pip->device.ret_phci, status)); 6397 } 6398 #endif /* DEBUG */ 6399 6400 6401 if (status == MDI_SUCCESS && ret_pip->ret_prop.buf && 6402 prop_size && ret_pip->ret_prop.buf_size >= prop_size) { 6403 status = mdi_prop_pack(pip, 6404 &ret_pip->ret_prop.buf, 6405 ret_pip->ret_prop.buf_size); 6406 6407 #ifdef DEBUG 6408 if (status != MDI_SUCCESS) { 6409 VHCI_DEBUG(2, (CE_WARN, NULL, 6410 "!vhci_get_client_path_list: " 6411 "phci <%s>, prop pack failure 0x%x", 6412 ret_pip->device.ret_phci, status)); 6413 } 6414 #endif /* DEBUG */ 6415 } 6416 6417 mdi_pi_unlock(pip); 6418 pip = mdi_get_next_phci_path(cdip, pip); 6419 ret_pip++; 6420 count++; 6421 done = (count >= num_elems); 6422 } 6423 6424 ndi_devi_exit(cdip, circular); 6425 6426 return (MDI_SUCCESS); 6427 } 6428 6429 6430 /* 6431 * Routine to get ioctl argument structure from userland. 6432 */ 6433 /* ARGSUSED */ 6434 static int 6435 vhci_get_iocdata(const void *data, sv_iocdata_t *pioc, int mode, caddr_t s) 6436 { 6437 int retval = 0; 6438 6439 #ifdef _MULTI_DATAMODEL 6440 switch (ddi_model_convert_from(mode & FMODELS)) { 6441 case DDI_MODEL_ILP32: 6442 { 6443 sv_iocdata32_t ioc32; 6444 6445 if (ddi_copyin(data, &ioc32, sizeof (ioc32), mode)) { 6446 retval = EFAULT; 6447 break; 6448 } 6449 pioc->client = (caddr_t)(uintptr_t)ioc32.client; 6450 pioc->phci = (caddr_t)(uintptr_t)ioc32.phci; 6451 pioc->addr = (caddr_t)(uintptr_t)ioc32.addr; 6452 pioc->buf_elem = (uint_t)ioc32.buf_elem; 6453 pioc->ret_buf = (sv_path_info_t *)(uintptr_t)ioc32.ret_buf; 6454 pioc->ret_elem = (uint_t *)(uintptr_t)ioc32.ret_elem; 6455 break; 6456 } 6457 6458 case DDI_MODEL_NONE: 6459 if (ddi_copyin(data, pioc, sizeof (*pioc), mode)) { 6460 retval = EFAULT; 6461 break; 6462 } 6463 break; 6464 } 6465 #else /* _MULTI_DATAMODEL */ 6466 if (ddi_copyin(data, pioc, sizeof (*pioc), mode)) { 6467 retval = EFAULT; 6468 } 6469 #endif /* _MULTI_DATAMODEL */ 6470 6471 #ifdef DEBUG 6472 if (retval) { 6473 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_get_ioc: cmd <%s> " 6474 "iocdata copyin failed", s)); 6475 } 6476 #endif 6477 6478 return (retval); 6479 } 6480 6481 6482 /* 6483 * Routine to get the ioctl argument for ioctl causing controller switchover. 6484 */ 6485 /* ARGSUSED */ 6486 static int 6487 vhci_get_iocswitchdata(const void *data, sv_switch_to_cntlr_iocdata_t *piocsc, 6488 int mode, caddr_t s) 6489 { 6490 int retval = 0; 6491 6492 #ifdef _MULTI_DATAMODEL 6493 switch (ddi_model_convert_from(mode & FMODELS)) { 6494 case DDI_MODEL_ILP32: 6495 { 6496 sv_switch_to_cntlr_iocdata32_t ioc32; 6497 6498 if (ddi_copyin(data, &ioc32, sizeof (ioc32), mode)) { 6499 retval = EFAULT; 6500 break; 6501 } 6502 piocsc->client = (caddr_t)(uintptr_t)ioc32.client; 6503 piocsc->class = (caddr_t)(uintptr_t)ioc32.class; 6504 break; 6505 } 6506 6507 case DDI_MODEL_NONE: 6508 if (ddi_copyin(data, piocsc, sizeof (*piocsc), mode)) { 6509 retval = EFAULT; 6510 } 6511 break; 6512 } 6513 #else /* _MULTI_DATAMODEL */ 6514 if (ddi_copyin(data, piocsc, sizeof (*piocsc), mode)) { 6515 retval = EFAULT; 6516 } 6517 #endif /* _MULTI_DATAMODEL */ 6518 6519 #ifdef DEBUG 6520 if (retval) { 6521 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_get_ioc: cmd <%s> " 6522 "switch_to_cntlr_iocdata copyin failed", s)); 6523 } 6524 #endif 6525 6526 return (retval); 6527 } 6528 6529 6530 /* 6531 * Routine to allocate memory for the path information structures. 6532 * It allocates two chunks of memory - one for keeping userland 6533 * pointers/values for path information and path properties, second for 6534 * keeping allocating kernel memory for path properties. These path 6535 * properties are finally copied to userland. 6536 */ 6537 /* ARGSUSED */ 6538 static int 6539 vhci_ioc_alloc_pathinfo(sv_path_info_t **upibuf, sv_path_info_t **kpibuf, 6540 uint_t num_paths, sv_iocdata_t *pioc, int mode, caddr_t s) 6541 { 6542 sv_path_info_t *pi; 6543 uint_t bufsize; 6544 int retval = 0; 6545 int index; 6546 6547 /* Allocate memory */ 6548 *upibuf = (sv_path_info_t *) 6549 kmem_zalloc(sizeof (sv_path_info_t) * num_paths, KM_SLEEP); 6550 ASSERT(*upibuf != NULL); 6551 *kpibuf = (sv_path_info_t *) 6552 kmem_zalloc(sizeof (sv_path_info_t) * num_paths, KM_SLEEP); 6553 ASSERT(*kpibuf != NULL); 6554 6555 /* 6556 * Get the path info structure from the user space. 6557 * We are interested in the following fields: 6558 * - user size of buffer for per path properties. 6559 * - user address of buffer for path info properties. 6560 * - user pointer for returning actual buffer size 6561 * Keep these fields in the 'upibuf' structures. 6562 * Allocate buffer for per path info properties in kernel 6563 * structure ('kpibuf'). 6564 * Size of these buffers will be equal to the size of buffers 6565 * in the user space. 6566 */ 6567 #ifdef _MULTI_DATAMODEL 6568 switch (ddi_model_convert_from(mode & FMODELS)) { 6569 case DDI_MODEL_ILP32: 6570 { 6571 sv_path_info32_t *src; 6572 sv_path_info32_t pi32; 6573 6574 src = (sv_path_info32_t *)pioc->ret_buf; 6575 pi = (sv_path_info_t *)*upibuf; 6576 for (index = 0; index < num_paths; index++, src++, pi++) { 6577 if (ddi_copyin(src, &pi32, sizeof (pi32), mode)) { 6578 retval = EFAULT; 6579 break; 6580 } 6581 6582 pi->ret_prop.buf_size = 6583 (uint_t)pi32.ret_prop.buf_size; 6584 pi->ret_prop.ret_buf_size = 6585 (uint_t *)(uintptr_t)pi32.ret_prop.ret_buf_size; 6586 pi->ret_prop.buf = 6587 (caddr_t)(uintptr_t)pi32.ret_prop.buf; 6588 } 6589 break; 6590 } 6591 6592 case DDI_MODEL_NONE: 6593 if (ddi_copyin(pioc->ret_buf, *upibuf, 6594 sizeof (sv_path_info_t) * num_paths, mode)) { 6595 retval = EFAULT; 6596 } 6597 break; 6598 } 6599 #else /* _MULTI_DATAMODEL */ 6600 if (ddi_copyin(pioc->ret_buf, *upibuf, 6601 sizeof (sv_path_info_t) * num_paths, mode)) { 6602 retval = EFAULT; 6603 } 6604 #endif /* _MULTI_DATAMODEL */ 6605 6606 if (retval != 0) { 6607 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_alloc_path_info: " 6608 "ioctl <%s> normal: path_info copyin failed", s)); 6609 kmem_free(*upibuf, sizeof (sv_path_info_t) * num_paths); 6610 kmem_free(*kpibuf, sizeof (sv_path_info_t) * num_paths); 6611 *upibuf = NULL; 6612 *kpibuf = NULL; 6613 return (retval); 6614 } 6615 6616 /* 6617 * Allocate memory for per path properties. 6618 */ 6619 for (index = 0, pi = *kpibuf; index < num_paths; index++, pi++) { 6620 bufsize = (*upibuf)[index].ret_prop.buf_size; 6621 6622 if (bufsize && bufsize <= SV_PROP_MAX_BUF_SIZE) { 6623 pi->ret_prop.buf_size = bufsize; 6624 pi->ret_prop.buf = (caddr_t) 6625 kmem_zalloc(bufsize, KM_SLEEP); 6626 ASSERT(pi->ret_prop.buf != NULL); 6627 } else { 6628 pi->ret_prop.buf_size = 0; 6629 pi->ret_prop.buf = NULL; 6630 } 6631 6632 if ((*upibuf)[index].ret_prop.ret_buf_size != NULL) { 6633 pi->ret_prop.ret_buf_size = (uint_t *)kmem_zalloc( 6634 sizeof (*pi->ret_prop.ret_buf_size), KM_SLEEP); 6635 ASSERT(pi->ret_prop.ret_buf_size != NULL); 6636 } else { 6637 pi->ret_prop.ret_buf_size = NULL; 6638 } 6639 } 6640 6641 return (0); 6642 } 6643 6644 6645 /* 6646 * Routine to free memory for the path information structures. 6647 * This is the memory which was allocated earlier. 6648 */ 6649 /* ARGSUSED */ 6650 static void 6651 vhci_ioc_free_pathinfo(sv_path_info_t *upibuf, sv_path_info_t *kpibuf, 6652 uint_t num_paths) 6653 { 6654 sv_path_info_t *pi; 6655 int index; 6656 6657 /* Free memory for per path properties */ 6658 for (index = 0, pi = kpibuf; index < num_paths; index++, pi++) { 6659 if (pi->ret_prop.ret_buf_size != NULL) { 6660 kmem_free(pi->ret_prop.ret_buf_size, 6661 sizeof (*pi->ret_prop.ret_buf_size)); 6662 } 6663 6664 if (pi->ret_prop.buf != NULL) { 6665 kmem_free(pi->ret_prop.buf, pi->ret_prop.buf_size); 6666 } 6667 } 6668 6669 /* Free memory for path info structures */ 6670 kmem_free(upibuf, sizeof (sv_path_info_t) * num_paths); 6671 kmem_free(kpibuf, sizeof (sv_path_info_t) * num_paths); 6672 } 6673 6674 6675 /* 6676 * Routine to copy path information and path properties to userland. 6677 */ 6678 /* ARGSUSED */ 6679 static int 6680 vhci_ioc_send_pathinfo(sv_path_info_t *upibuf, sv_path_info_t *kpibuf, 6681 uint_t num_paths, sv_iocdata_t *pioc, int mode, caddr_t s) 6682 { 6683 int retval = 0, index; 6684 sv_path_info_t *upi_ptr; 6685 sv_path_info32_t *upi32_ptr; 6686 6687 #ifdef _MULTI_DATAMODEL 6688 switch (ddi_model_convert_from(mode & FMODELS)) { 6689 case DDI_MODEL_ILP32: 6690 goto copy_32bit; 6691 6692 case DDI_MODEL_NONE: 6693 goto copy_normal; 6694 } 6695 #else /* _MULTI_DATAMODEL */ 6696 6697 goto copy_normal; 6698 6699 #endif /* _MULTI_DATAMODEL */ 6700 6701 copy_normal: 6702 6703 /* 6704 * Copy path information and path properties to user land. 6705 * Pointer fields inside the path property structure were 6706 * saved in the 'upibuf' structure earlier. 6707 */ 6708 upi_ptr = pioc->ret_buf; 6709 for (index = 0; index < num_paths; index++) { 6710 if (ddi_copyout(kpibuf[index].device.ret_ct, 6711 upi_ptr[index].device.ret_ct, MAXPATHLEN, mode)) { 6712 retval = EFAULT; 6713 break; 6714 } 6715 6716 if (ddi_copyout(kpibuf[index].ret_addr, 6717 upi_ptr[index].ret_addr, MAXNAMELEN, mode)) { 6718 retval = EFAULT; 6719 break; 6720 } 6721 6722 if (ddi_copyout(&kpibuf[index].ret_state, 6723 &upi_ptr[index].ret_state, sizeof (kpibuf[index].ret_state), 6724 mode)) { 6725 retval = EFAULT; 6726 break; 6727 } 6728 6729 if (ddi_copyout(&kpibuf[index].ret_ext_state, 6730 &upi_ptr[index].ret_ext_state, 6731 sizeof (kpibuf[index].ret_ext_state), mode)) { 6732 retval = EFAULT; 6733 break; 6734 } 6735 6736 if ((kpibuf[index].ret_prop.ret_buf_size != NULL) && 6737 ddi_copyout(kpibuf[index].ret_prop.ret_buf_size, 6738 upibuf[index].ret_prop.ret_buf_size, 6739 sizeof (*upibuf[index].ret_prop.ret_buf_size), mode)) { 6740 retval = EFAULT; 6741 break; 6742 } 6743 6744 if ((kpibuf[index].ret_prop.buf != NULL) && 6745 ddi_copyout(kpibuf[index].ret_prop.buf, 6746 upibuf[index].ret_prop.buf, 6747 upibuf[index].ret_prop.buf_size, mode)) { 6748 retval = EFAULT; 6749 break; 6750 } 6751 } 6752 6753 #ifdef DEBUG 6754 if (retval) { 6755 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_get_ioc: ioctl <%s> " 6756 "normal: path_info copyout failed", s)); 6757 } 6758 #endif 6759 6760 return (retval); 6761 6762 copy_32bit: 6763 /* 6764 * Copy path information and path properties to user land. 6765 * Pointer fields inside the path property structure were 6766 * saved in the 'upibuf' structure earlier. 6767 */ 6768 upi32_ptr = (sv_path_info32_t *)pioc->ret_buf; 6769 for (index = 0; index < num_paths; index++) { 6770 if (ddi_copyout(kpibuf[index].device.ret_ct, 6771 upi32_ptr[index].device.ret_ct, MAXPATHLEN, mode)) { 6772 retval = EFAULT; 6773 break; 6774 } 6775 6776 if (ddi_copyout(kpibuf[index].ret_addr, 6777 upi32_ptr[index].ret_addr, MAXNAMELEN, mode)) { 6778 retval = EFAULT; 6779 break; 6780 } 6781 6782 if (ddi_copyout(&kpibuf[index].ret_state, 6783 &upi32_ptr[index].ret_state, 6784 sizeof (kpibuf[index].ret_state), mode)) { 6785 retval = EFAULT; 6786 break; 6787 } 6788 6789 if (ddi_copyout(&kpibuf[index].ret_ext_state, 6790 &upi32_ptr[index].ret_ext_state, 6791 sizeof (kpibuf[index].ret_ext_state), mode)) { 6792 retval = EFAULT; 6793 break; 6794 } 6795 if ((kpibuf[index].ret_prop.ret_buf_size != NULL) && 6796 ddi_copyout(kpibuf[index].ret_prop.ret_buf_size, 6797 upibuf[index].ret_prop.ret_buf_size, 6798 sizeof (*upibuf[index].ret_prop.ret_buf_size), mode)) { 6799 retval = EFAULT; 6800 break; 6801 } 6802 6803 if ((kpibuf[index].ret_prop.buf != NULL) && 6804 ddi_copyout(kpibuf[index].ret_prop.buf, 6805 upibuf[index].ret_prop.buf, 6806 upibuf[index].ret_prop.buf_size, mode)) { 6807 retval = EFAULT; 6808 break; 6809 } 6810 } 6811 6812 #ifdef DEBUG 6813 if (retval) { 6814 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_get_ioc: ioctl <%s> " 6815 "normal: path_info copyout failed", s)); 6816 } 6817 #endif 6818 6819 return (retval); 6820 } 6821 6822 6823 /* 6824 * vhci_failover() 6825 * This routine expects VHCI_HOLD_LUN before being invoked. It can be invoked 6826 * as MDI_FAILOVER_ASYNC or MDI_FAILOVER_SYNC. For Asynchronous failovers 6827 * this routine shall VHCI_RELEASE_LUN on exiting. For synchronous failovers 6828 * it is the callers responsibility to release lun. 6829 */ 6830 6831 /* ARGSUSED */ 6832 static int 6833 vhci_failover(dev_info_t *vdip, dev_info_t *cdip, int flags) 6834 { 6835 char *guid; 6836 scsi_vhci_lun_t *vlun = NULL; 6837 struct scsi_vhci *vhci; 6838 mdi_pathinfo_t *pip, *npip; 6839 char *s_pclass, *pclass1, *pclass2, *pclass; 6840 char active_pclass_copy[255], *active_pclass_ptr; 6841 char *ptr1, *ptr2; 6842 mdi_pathinfo_state_t pi_state; 6843 uint32_t pi_ext_state; 6844 scsi_vhci_priv_t *svp; 6845 struct scsi_device *sd; 6846 struct scsi_failover_ops *sfo; 6847 int sps; /* mdi_select_path() status */ 6848 int activation_done = 0; 6849 int rval, retval = MDI_FAILURE; 6850 int reserve_pending, check_condition, UA_condition; 6851 struct scsi_pkt *pkt; 6852 struct buf *bp; 6853 6854 vhci = ddi_get_soft_state(vhci_softstate, ddi_get_instance(vdip)); 6855 sd = ddi_get_driver_private(cdip); 6856 vlun = ADDR2VLUN(&sd->sd_address); 6857 ASSERT(vlun != 0); 6858 ASSERT(VHCI_LUN_IS_HELD(vlun)); 6859 guid = vlun->svl_lun_wwn; 6860 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_failover(1): guid %s\n", guid)); 6861 vhci_log(CE_NOTE, vdip, "!Initiating failover for device %s " 6862 "(GUID %s)", ddi_node_name(cdip), guid); 6863 6864 /* 6865 * Lets maintain a local copy of the vlun->svl_active_pclass 6866 * for the rest of the processing. Accessing the field 6867 * directly in the loop below causes loop logic to break 6868 * especially when the field gets updated by other threads 6869 * update path status etc and causes 'paths are not currently 6870 * available' condition to be declared prematurely. 6871 */ 6872 mutex_enter(&vlun->svl_mutex); 6873 if (vlun->svl_active_pclass != NULL) { 6874 (void) strlcpy(active_pclass_copy, vlun->svl_active_pclass, 6875 sizeof (active_pclass_copy)); 6876 active_pclass_ptr = &active_pclass_copy[0]; 6877 mutex_exit(&vlun->svl_mutex); 6878 if (vhci_quiesce_paths(vdip, cdip, vlun, guid, 6879 active_pclass_ptr) != 0) { 6880 retval = MDI_FAILURE; 6881 } 6882 } else { 6883 /* 6884 * can happen only when the available path to device 6885 * discovered is a STANDBY path. 6886 */ 6887 mutex_exit(&vlun->svl_mutex); 6888 active_pclass_copy[0] = '\0'; 6889 active_pclass_ptr = NULL; 6890 } 6891 6892 sfo = vlun->svl_fops; 6893 ASSERT(sfo != NULL); 6894 pclass1 = s_pclass = active_pclass_ptr; 6895 VHCI_DEBUG(1, (CE_NOTE, NULL, "!(%s)failing over from %s\n", guid, 6896 (s_pclass == NULL ? "<none>" : s_pclass))); 6897 6898 next_pathclass: 6899 6900 rval = sfo->sfo_pathclass_next(pclass1, &pclass2, 6901 vlun->svl_fops_ctpriv); 6902 if (rval == ENOENT) { 6903 if (s_pclass == NULL) { 6904 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_failover(4)(%s): " 6905 "failed, no more pathclasses\n", guid)); 6906 goto done; 6907 } else { 6908 (void) sfo->sfo_pathclass_next(NULL, &pclass2, 6909 vlun->svl_fops_ctpriv); 6910 } 6911 } else if (rval == EINVAL) { 6912 vhci_log(CE_NOTE, vdip, "!Failover operation failed for " 6913 "device %s (GUID %s): Invalid path-class %s", 6914 ddi_node_name(cdip), guid, 6915 ((pclass1 == NULL) ? "<none>" : pclass1)); 6916 goto done; 6917 } 6918 if ((s_pclass != NULL) && (strcmp(pclass2, s_pclass) == 0)) { 6919 /* 6920 * paths are not currently available 6921 */ 6922 vhci_log(CE_NOTE, vdip, "!Failover path currently unavailable" 6923 " for device %s (GUID %s)", 6924 ddi_node_name(cdip), guid); 6925 goto done; 6926 } 6927 pip = npip = NULL; 6928 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_failover(5.2)(%s): considering " 6929 "%s as failover destination\n", guid, pclass2)); 6930 sps = mdi_select_path(cdip, NULL, MDI_SELECT_STANDBY_PATH, NULL, &npip); 6931 if ((npip == NULL) || (sps != MDI_SUCCESS)) { 6932 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_failover(%s): no " 6933 "STANDBY paths found (status:%x)!\n", guid, sps)); 6934 pclass1 = pclass2; 6935 goto next_pathclass; 6936 } 6937 do { 6938 pclass = NULL; 6939 if ((mdi_prop_lookup_string(npip, "path-class", 6940 &pclass) != MDI_SUCCESS) || (strcmp(pclass2, 6941 pclass) != 0)) { 6942 VHCI_DEBUG(1, (CE_NOTE, NULL, 6943 "!vhci_failover(5.5)(%s): skipping path " 6944 "%p(%s)...\n", guid, (void *)npip, pclass)); 6945 pip = npip; 6946 sps = mdi_select_path(cdip, NULL, 6947 MDI_SELECT_STANDBY_PATH, pip, &npip); 6948 mdi_rele_path(pip); 6949 (void) mdi_prop_free(pclass); 6950 continue; 6951 } 6952 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(npip); 6953 6954 /* 6955 * Issue READ at non-zer block on this STANDBY path. 6956 * Purple returns 6957 * 1. RESERVATION_CONFLICT if reservation is pending 6958 * 2. POR check condition if it reset happened. 6959 * 2. failover Check Conditions if one is already in progress. 6960 */ 6961 reserve_pending = 0; 6962 check_condition = 0; 6963 UA_condition = 0; 6964 6965 bp = scsi_alloc_consistent_buf(&svp->svp_psd->sd_address, 6966 (struct buf *)NULL, DEV_BSIZE, B_READ, NULL, NULL); 6967 if (!bp) { 6968 VHCI_DEBUG(1, (CE_NOTE, NULL, 6969 "vhci_failover !No resources (buf)\n")); 6970 mdi_rele_path(npip); 6971 goto done; 6972 } 6973 pkt = scsi_init_pkt(&svp->svp_psd->sd_address, NULL, bp, 6974 CDB_GROUP1, sizeof (struct scsi_arq_status), 0, 6975 PKT_CONSISTENT, NULL, NULL); 6976 if (pkt) { 6977 (void) scsi_setup_cdb((union scsi_cdb *)(uintptr_t) 6978 pkt->pkt_cdbp, SCMD_READ, 1, 1, 0); 6979 pkt->pkt_flags = FLAG_NOINTR; 6980 check_path_again: 6981 pkt->pkt_path_instance = mdi_pi_get_path_instance(npip); 6982 pkt->pkt_time = 3 * 30; 6983 6984 if (scsi_transport(pkt) == TRAN_ACCEPT) { 6985 switch (pkt->pkt_reason) { 6986 case CMD_CMPLT: 6987 switch (SCBP_C(pkt)) { 6988 case STATUS_GOOD: 6989 /* Already failed over */ 6990 activation_done = 1; 6991 break; 6992 case STATUS_RESERVATION_CONFLICT: 6993 reserve_pending = 1; 6994 break; 6995 case STATUS_CHECK: 6996 check_condition = 1; 6997 break; 6998 } 6999 } 7000 } 7001 if (check_condition && 7002 (pkt->pkt_state & STATE_ARQ_DONE)) { 7003 uint8_t *sns, skey, asc, ascq; 7004 sns = (uint8_t *) 7005 &(((struct scsi_arq_status *)(uintptr_t) 7006 (pkt->pkt_scbp))->sts_sensedata); 7007 skey = scsi_sense_key(sns); 7008 asc = scsi_sense_asc(sns); 7009 ascq = scsi_sense_ascq(sns); 7010 if (skey == KEY_UNIT_ATTENTION && 7011 asc == 0x29) { 7012 /* Already failed over */ 7013 VHCI_DEBUG(1, (CE_NOTE, NULL, 7014 "!vhci_failover(7)(%s): " 7015 "path 0x%p POR UA condition\n", 7016 guid, (void *)npip)); 7017 if (UA_condition == 0) { 7018 UA_condition = 1; 7019 goto check_path_again; 7020 } 7021 } else { 7022 activation_done = 0; 7023 VHCI_DEBUG(1, (CE_NOTE, NULL, 7024 "!vhci_failover(%s): path 0x%p " 7025 "unhandled chkcond %x %x %x\n", 7026 guid, (void *)npip, skey, 7027 asc, ascq)); 7028 } 7029 } 7030 scsi_destroy_pkt(pkt); 7031 } 7032 scsi_free_consistent_buf(bp); 7033 7034 if (activation_done) { 7035 mdi_rele_path(npip); 7036 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_failover(7)(%s): " 7037 "path 0x%p already failedover\n", guid, 7038 (void *)npip)); 7039 break; 7040 } 7041 if (reserve_pending && (vlun->svl_xlf_capable == 0)) { 7042 (void) vhci_recovery_reset(vlun, 7043 &svp->svp_psd->sd_address, 7044 FALSE, VHCI_DEPTH_ALL); 7045 } 7046 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_failover(6)(%s): " 7047 "activating path 0x%p(psd:%p)\n", guid, (void *)npip, 7048 (void *)svp->svp_psd)); 7049 if (sfo->sfo_path_activate(svp->svp_psd, pclass2, 7050 vlun->svl_fops_ctpriv) == 0) { 7051 activation_done = 1; 7052 mdi_rele_path(npip); 7053 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_failover(7)(%s): " 7054 "path 0x%p successfully activated\n", guid, 7055 (void *)npip)); 7056 break; 7057 } 7058 pip = npip; 7059 sps = mdi_select_path(cdip, NULL, MDI_SELECT_STANDBY_PATH, 7060 pip, &npip); 7061 mdi_rele_path(pip); 7062 } while ((npip != NULL) && (sps == MDI_SUCCESS)); 7063 if (activation_done == 0) { 7064 pclass1 = pclass2; 7065 goto next_pathclass; 7066 } 7067 7068 /* 7069 * if we are here, we have succeeded in activating path npip of 7070 * pathclass pclass2; let us validate all paths of pclass2 by 7071 * "ping"-ing each one and mark the good ones ONLINE 7072 * Also, set the state of the paths belonging to the previously 7073 * active pathclass to STANDBY 7074 */ 7075 pip = npip = NULL; 7076 sps = mdi_select_path(cdip, NULL, (MDI_SELECT_ONLINE_PATH | 7077 MDI_SELECT_STANDBY_PATH | MDI_SELECT_USER_DISABLE_PATH), 7078 NULL, &npip); 7079 if (npip == NULL || sps != MDI_SUCCESS) { 7080 VHCI_DEBUG(1, (CE_NOTE, NULL, "!Failover operation failed for " 7081 "device %s (GUID %s): paths may be busy\n", 7082 ddi_node_name(cdip), guid)); 7083 goto done; 7084 } 7085 do { 7086 (void) mdi_pi_get_state2(npip, &pi_state, &pi_ext_state); 7087 if (mdi_prop_lookup_string(npip, "path-class", &pclass) 7088 != MDI_SUCCESS) { 7089 pip = npip; 7090 sps = mdi_select_path(cdip, NULL, 7091 (MDI_SELECT_ONLINE_PATH | 7092 MDI_SELECT_STANDBY_PATH | 7093 MDI_SELECT_USER_DISABLE_PATH), 7094 pip, &npip); 7095 mdi_rele_path(pip); 7096 continue; 7097 } 7098 if (strcmp(pclass, pclass2) == 0) { 7099 if (pi_state == MDI_PATHINFO_STATE_STANDBY) { 7100 svp = (scsi_vhci_priv_t *) 7101 mdi_pi_get_vhci_private(npip); 7102 VHCI_DEBUG(1, (CE_NOTE, NULL, 7103 "!vhci_failover(8)(%s): " 7104 "pinging path 0x%p\n", 7105 guid, (void *)npip)); 7106 if (sfo->sfo_path_ping(svp->svp_psd, 7107 vlun->svl_fops_ctpriv) == 1) { 7108 mdi_pi_set_state(npip, 7109 MDI_PATHINFO_STATE_ONLINE); 7110 VHCI_DEBUG(1, (CE_NOTE, NULL, 7111 "!vhci_failover(9)(%s): " 7112 "path 0x%p ping successful, " 7113 "marked online\n", guid, 7114 (void *)npip)); 7115 MDI_PI_ERRSTAT(npip, MDI_PI_FAILTO); 7116 } 7117 } 7118 } else if ((s_pclass != NULL) && (strcmp(pclass, s_pclass) 7119 == 0)) { 7120 if (pi_state == MDI_PATHINFO_STATE_ONLINE) { 7121 mdi_pi_set_state(npip, 7122 MDI_PATHINFO_STATE_STANDBY); 7123 VHCI_DEBUG(1, (CE_NOTE, NULL, 7124 "!vhci_failover(10)(%s): path 0x%p marked " 7125 "STANDBY\n", guid, (void *)npip)); 7126 MDI_PI_ERRSTAT(npip, MDI_PI_FAILFROM); 7127 } 7128 } 7129 (void) mdi_prop_free(pclass); 7130 pip = npip; 7131 sps = mdi_select_path(cdip, NULL, (MDI_SELECT_ONLINE_PATH | 7132 MDI_SELECT_STANDBY_PATH | MDI_SELECT_USER_DISABLE_PATH), 7133 pip, &npip); 7134 mdi_rele_path(pip); 7135 } while ((npip != NULL) && (sps == MDI_SUCCESS)); 7136 7137 /* 7138 * Update the AccessState of related MP-API TPGs 7139 */ 7140 (void) vhci_mpapi_update_tpg_acc_state_for_lu(vhci, vlun); 7141 7142 vhci_log(CE_NOTE, vdip, "!Failover operation completed successfully " 7143 "for device %s (GUID %s): failed over from %s to %s", 7144 ddi_node_name(cdip), guid, ((s_pclass == NULL) ? "<none>" : 7145 s_pclass), pclass2); 7146 ptr1 = kmem_alloc(strlen(pclass2) + 1, KM_SLEEP); 7147 (void) strlcpy(ptr1, pclass2, (strlen(pclass2) + 1)); 7148 mutex_enter(&vlun->svl_mutex); 7149 ptr2 = vlun->svl_active_pclass; 7150 vlun->svl_active_pclass = ptr1; 7151 mutex_exit(&vlun->svl_mutex); 7152 if (ptr2) { 7153 kmem_free(ptr2, strlen(ptr2) + 1); 7154 } 7155 mutex_enter(&vhci->vhci_mutex); 7156 scsi_hba_reset_notify_callback(&vhci->vhci_mutex, 7157 &vhci->vhci_reset_notify_listf); 7158 /* All reservations are cleared upon these resets. */ 7159 vlun->svl_flags &= ~VLUN_RESERVE_ACTIVE_FLG; 7160 mutex_exit(&vhci->vhci_mutex); 7161 VHCI_DEBUG(1, (CE_NOTE, NULL, "!vhci_failover(11): DONE! Active " 7162 "pathclass for %s is now %s\n", guid, pclass2)); 7163 retval = MDI_SUCCESS; 7164 7165 done: 7166 vlun->svl_failover_status = retval; 7167 if (flags == MDI_FAILOVER_ASYNC) { 7168 VHCI_RELEASE_LUN(vlun); 7169 VHCI_DEBUG(6, (CE_NOTE, NULL, "!vhci_failover(12): DONE! " 7170 "releasing lun, as failover was ASYNC\n")); 7171 } else { 7172 VHCI_DEBUG(6, (CE_NOTE, NULL, "!vhci_failover(12): DONE! " 7173 "NOT releasing lun, as failover was SYNC\n")); 7174 } 7175 return (retval); 7176 } 7177 7178 /* 7179 * vhci_client_attached is called after the successful attach of a 7180 * client devinfo node. 7181 */ 7182 static void 7183 vhci_client_attached(dev_info_t *cdip) 7184 { 7185 mdi_pathinfo_t *pip; 7186 int circular; 7187 7188 /* 7189 * At this point the client has attached and it's instance number is 7190 * valid, so we can set up kstats. We need to do this here because it 7191 * is possible for paths to go online prior to client attach, in which 7192 * case the call to vhci_kstat_create_pathinfo in vhci_pathinfo_online 7193 * was a noop. 7194 */ 7195 ndi_devi_enter(cdip, &circular); 7196 for (pip = mdi_get_next_phci_path(cdip, NULL); pip; 7197 pip = mdi_get_next_phci_path(cdip, pip)) 7198 vhci_kstat_create_pathinfo(pip); 7199 ndi_devi_exit(cdip, circular); 7200 } 7201 7202 /* 7203 * quiesce all of the online paths 7204 */ 7205 static int 7206 vhci_quiesce_paths(dev_info_t *vdip, dev_info_t *cdip, scsi_vhci_lun_t *vlun, 7207 char *guid, char *active_pclass_ptr) 7208 { 7209 scsi_vhci_priv_t *svp; 7210 char *s_pclass = NULL; 7211 mdi_pathinfo_t *npip, *pip; 7212 int sps; 7213 7214 /* quiesce currently active paths */ 7215 s_pclass = NULL; 7216 pip = npip = NULL; 7217 sps = mdi_select_path(cdip, NULL, MDI_SELECT_ONLINE_PATH, NULL, &npip); 7218 if ((npip == NULL) || (sps != MDI_SUCCESS)) { 7219 return (1); 7220 } 7221 do { 7222 if (mdi_prop_lookup_string(npip, "path-class", 7223 &s_pclass) != MDI_SUCCESS) { 7224 mdi_rele_path(npip); 7225 vhci_log(CE_NOTE, vdip, "!Failover operation failed " 7226 "for device %s (GUID %s) due to an internal " 7227 "error", ddi_node_name(cdip), guid); 7228 return (1); 7229 } 7230 if (strcmp(s_pclass, active_pclass_ptr) == 0) { 7231 /* 7232 * quiesce path. Free s_pclass since 7233 * we don't need it anymore 7234 */ 7235 VHCI_DEBUG(1, (CE_NOTE, NULL, 7236 "!vhci_failover(2)(%s): failing over " 7237 "from %s; quiescing path %p\n", 7238 guid, s_pclass, (void *)npip)); 7239 (void) mdi_prop_free(s_pclass); 7240 svp = (scsi_vhci_priv_t *) 7241 mdi_pi_get_vhci_private(npip); 7242 if (svp == NULL) { 7243 VHCI_DEBUG(1, (CE_NOTE, NULL, 7244 "!vhci_failover(2.5)(%s): no " 7245 "client priv! %p offlined?\n", 7246 guid, (void *)npip)); 7247 pip = npip; 7248 sps = mdi_select_path(cdip, NULL, 7249 MDI_SELECT_ONLINE_PATH, pip, &npip); 7250 mdi_rele_path(pip); 7251 continue; 7252 } 7253 if (scsi_abort(&svp->svp_psd->sd_address, NULL) 7254 == 0) { 7255 (void) vhci_recovery_reset(vlun, 7256 &svp->svp_psd->sd_address, FALSE, 7257 VHCI_DEPTH_TARGET); 7258 } 7259 mutex_enter(&svp->svp_mutex); 7260 if (svp->svp_cmds == 0) { 7261 VHCI_DEBUG(1, (CE_NOTE, NULL, 7262 "!vhci_failover(3)(%s):" 7263 "quiesced path %p\n", guid, (void *)npip)); 7264 } else { 7265 while (svp->svp_cmds != 0) { 7266 cv_wait(&svp->svp_cv, &svp->svp_mutex); 7267 VHCI_DEBUG(1, (CE_NOTE, NULL, 7268 "!vhci_failover(3.cv)(%s):" 7269 "quiesced path %p\n", guid, 7270 (void *)npip)); 7271 } 7272 } 7273 mutex_exit(&svp->svp_mutex); 7274 } else { 7275 /* 7276 * make sure we freeup the memory 7277 */ 7278 (void) mdi_prop_free(s_pclass); 7279 } 7280 pip = npip; 7281 sps = mdi_select_path(cdip, NULL, MDI_SELECT_ONLINE_PATH, 7282 pip, &npip); 7283 mdi_rele_path(pip); 7284 } while ((npip != NULL) && (sps == MDI_SUCCESS)); 7285 return (0); 7286 } 7287 7288 static struct scsi_vhci_lun * 7289 vhci_lun_lookup(dev_info_t *tgt_dip) 7290 { 7291 return ((struct scsi_vhci_lun *) 7292 mdi_client_get_vhci_private(tgt_dip)); 7293 } 7294 7295 static struct scsi_vhci_lun * 7296 vhci_lun_lookup_alloc(dev_info_t *tgt_dip, char *guid, int *didalloc) 7297 { 7298 struct scsi_vhci_lun *svl; 7299 7300 if (svl = vhci_lun_lookup(tgt_dip)) { 7301 return (svl); 7302 } 7303 7304 svl = kmem_zalloc(sizeof (*svl), KM_SLEEP); 7305 svl->svl_lun_wwn = kmem_zalloc(strlen(guid) + 1, KM_SLEEP); 7306 (void) strcpy(svl->svl_lun_wwn, guid); 7307 mutex_init(&svl->svl_mutex, NULL, MUTEX_DRIVER, NULL); 7308 cv_init(&svl->svl_cv, NULL, CV_DRIVER, NULL); 7309 sema_init(&svl->svl_pgr_sema, 1, NULL, SEMA_DRIVER, NULL); 7310 svl->svl_waiting_for_activepath = 1; 7311 svl->svl_sector_size = 1; 7312 mdi_client_set_vhci_private(tgt_dip, svl); 7313 *didalloc = 1; 7314 VHCI_DEBUG(1, (CE_NOTE, NULL, 7315 "vhci_lun_lookup_alloc: guid %s vlun 0x%p\n", 7316 guid, (void *)svl)); 7317 return (svl); 7318 } 7319 7320 static void 7321 vhci_lun_free(struct scsi_vhci_lun *dvlp, struct scsi_device *sd) 7322 { 7323 char *guid; 7324 7325 guid = dvlp->svl_lun_wwn; 7326 ASSERT(guid != NULL); 7327 VHCI_DEBUG(4, (CE_NOTE, NULL, "!vhci_lun_free: %s\n", guid)); 7328 7329 mutex_enter(&dvlp->svl_mutex); 7330 if (dvlp->svl_active_pclass != NULL) { 7331 kmem_free(dvlp->svl_active_pclass, 7332 strlen(dvlp->svl_active_pclass) + 1); 7333 } 7334 dvlp->svl_active_pclass = NULL; 7335 mutex_exit(&dvlp->svl_mutex); 7336 7337 if (dvlp->svl_lun_wwn != NULL) { 7338 kmem_free(dvlp->svl_lun_wwn, strlen(dvlp->svl_lun_wwn) + 1); 7339 } 7340 dvlp->svl_lun_wwn = NULL; 7341 7342 if (dvlp->svl_fops_name) { 7343 kmem_free(dvlp->svl_fops_name, strlen(dvlp->svl_fops_name) + 1); 7344 } 7345 dvlp->svl_fops_name = NULL; 7346 7347 if (dvlp->svl_fops_ctpriv != NULL && 7348 dvlp->svl_fops != NULL) { 7349 dvlp->svl_fops->sfo_device_unprobe(sd, dvlp->svl_fops_ctpriv); 7350 } 7351 7352 if (dvlp->svl_flags & VLUN_TASK_D_ALIVE_FLG) 7353 taskq_destroy(dvlp->svl_taskq); 7354 7355 mutex_destroy(&dvlp->svl_mutex); 7356 cv_destroy(&dvlp->svl_cv); 7357 sema_destroy(&dvlp->svl_pgr_sema); 7358 kmem_free(dvlp, sizeof (*dvlp)); 7359 /* 7360 * vhci_lun_free may be called before the tgt_dip 7361 * initialization so check if the sd is NULL. 7362 */ 7363 if (sd != NULL) 7364 scsi_device_hba_private_set(sd, NULL); 7365 } 7366 7367 int 7368 vhci_do_scsi_cmd(struct scsi_pkt *pkt) 7369 { 7370 int err = 0; 7371 int retry_cnt = 0; 7372 uint8_t *sns, skey; 7373 7374 #ifdef DEBUG 7375 if (vhci_debug > 5) { 7376 vhci_print_cdb(pkt->pkt_address.a_hba_tran->tran_hba_dip, 7377 CE_WARN, "Vhci command", pkt->pkt_cdbp); 7378 } 7379 #endif 7380 7381 retry: 7382 err = scsi_poll(pkt); 7383 if (err) { 7384 if (pkt->pkt_cdbp[0] == SCMD_RELEASE) { 7385 if (SCBP_C(pkt) == STATUS_RESERVATION_CONFLICT) { 7386 VHCI_DEBUG(1, (CE_NOTE, NULL, 7387 "!v_s_do_s_c: RELEASE conflict\n")); 7388 return (0); 7389 } 7390 } 7391 if (retry_cnt++ < 6) { 7392 VHCI_DEBUG(1, (CE_WARN, NULL, 7393 "!v_s_do_s_c:retry packet 0x%p " 7394 "status 0x%x reason %s", 7395 (void *)pkt, SCBP_C(pkt), 7396 scsi_rname(pkt->pkt_reason))); 7397 if ((pkt->pkt_reason == CMD_CMPLT) && 7398 (SCBP_C(pkt) == STATUS_CHECK) && 7399 (pkt->pkt_state & STATE_ARQ_DONE)) { 7400 sns = (uint8_t *) 7401 &(((struct scsi_arq_status *)(uintptr_t) 7402 (pkt->pkt_scbp))->sts_sensedata); 7403 skey = scsi_sense_key(sns); 7404 VHCI_DEBUG(1, (CE_WARN, NULL, 7405 "!v_s_do_s_c:retry " 7406 "packet 0x%p sense data %s", (void *)pkt, 7407 scsi_sname(skey))); 7408 } 7409 goto retry; 7410 } 7411 VHCI_DEBUG(1, (CE_WARN, NULL, 7412 "!v_s_do_s_c: failed transport 0x%p 0x%x", 7413 (void *)pkt, SCBP_C(pkt))); 7414 return (0); 7415 } 7416 7417 switch (pkt->pkt_reason) { 7418 case CMD_TIMEOUT: 7419 VHCI_DEBUG(1, (CE_WARN, NULL, "!pkt timed " 7420 "out (pkt 0x%p)", (void *)pkt)); 7421 return (0); 7422 case CMD_CMPLT: 7423 switch (SCBP_C(pkt)) { 7424 case STATUS_GOOD: 7425 break; 7426 case STATUS_CHECK: 7427 if (pkt->pkt_state & STATE_ARQ_DONE) { 7428 sns = (uint8_t *)&((( 7429 struct scsi_arq_status *) 7430 (uintptr_t) 7431 (pkt->pkt_scbp))-> 7432 sts_sensedata); 7433 skey = scsi_sense_key(sns); 7434 if ((skey == 7435 KEY_UNIT_ATTENTION) || 7436 (skey == 7437 KEY_NOT_READY)) { 7438 /* 7439 * clear unit attn. 7440 */ 7441 7442 VHCI_DEBUG(1, 7443 (CE_WARN, NULL, 7444 "!v_s_do_s_c: " 7445 "retry " 7446 "packet 0x%p sense " 7447 "data %s", 7448 (void *)pkt, 7449 scsi_sname 7450 (skey))); 7451 goto retry; 7452 } 7453 VHCI_DEBUG(4, (CE_WARN, NULL, 7454 "!ARQ while " 7455 "transporting " 7456 "(pkt 0x%p)", 7457 (void *)pkt)); 7458 return (0); 7459 } 7460 return (0); 7461 default: 7462 VHCI_DEBUG(1, (CE_WARN, NULL, 7463 "!Bad status returned " 7464 "(pkt 0x%p, status %x)", 7465 (void *)pkt, SCBP_C(pkt))); 7466 return (0); 7467 } 7468 break; 7469 case CMD_INCOMPLETE: 7470 case CMD_RESET: 7471 case CMD_ABORTED: 7472 case CMD_TRAN_ERR: 7473 if (retry_cnt++ < 1) { 7474 VHCI_DEBUG(1, (CE_WARN, NULL, 7475 "!v_s_do_s_c: retry packet 0x%p %s", 7476 (void *)pkt, scsi_rname(pkt->pkt_reason))); 7477 goto retry; 7478 } 7479 /* FALLTHROUGH */ 7480 default: 7481 VHCI_DEBUG(1, (CE_WARN, NULL, "!pkt did not " 7482 "complete successfully (pkt 0x%p," 7483 "reason %x)", (void *)pkt, pkt->pkt_reason)); 7484 return (0); 7485 } 7486 return (1); 7487 } 7488 7489 static int 7490 vhci_quiesce_lun(struct scsi_vhci_lun *vlun) 7491 { 7492 mdi_pathinfo_t *pip, *spip; 7493 dev_info_t *cdip; 7494 struct scsi_vhci_priv *svp; 7495 mdi_pathinfo_state_t pstate; 7496 uint32_t p_ext_state; 7497 int circular; 7498 7499 cdip = vlun->svl_dip; 7500 pip = spip = NULL; 7501 ndi_devi_enter(cdip, &circular); 7502 pip = mdi_get_next_phci_path(cdip, NULL); 7503 while (pip != NULL) { 7504 (void) mdi_pi_get_state2(pip, &pstate, &p_ext_state); 7505 if (pstate != MDI_PATHINFO_STATE_ONLINE) { 7506 spip = pip; 7507 pip = mdi_get_next_phci_path(cdip, spip); 7508 continue; 7509 } 7510 mdi_hold_path(pip); 7511 ndi_devi_exit(cdip, circular); 7512 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(pip); 7513 mutex_enter(&svp->svp_mutex); 7514 while (svp->svp_cmds != 0) { 7515 if (cv_reltimedwait(&svp->svp_cv, &svp->svp_mutex, 7516 drv_usectohz(vhci_path_quiesce_timeout * 1000000), 7517 TR_CLOCK_TICK) == -1) { 7518 mutex_exit(&svp->svp_mutex); 7519 mdi_rele_path(pip); 7520 VHCI_DEBUG(1, (CE_WARN, NULL, 7521 "Quiesce of lun is not successful " 7522 "vlun: 0x%p.", (void *)vlun)); 7523 return (0); 7524 } 7525 } 7526 mutex_exit(&svp->svp_mutex); 7527 ndi_devi_enter(cdip, &circular); 7528 spip = pip; 7529 pip = mdi_get_next_phci_path(cdip, spip); 7530 mdi_rele_path(spip); 7531 } 7532 ndi_devi_exit(cdip, circular); 7533 return (1); 7534 } 7535 7536 static int 7537 vhci_pgr_validate_and_register(scsi_vhci_priv_t *svp) 7538 { 7539 scsi_vhci_lun_t *vlun; 7540 vhci_prout_t *prout; 7541 int rval, success; 7542 mdi_pathinfo_t *pip, *npip; 7543 scsi_vhci_priv_t *osvp; 7544 dev_info_t *cdip; 7545 uchar_t cdb_1; 7546 uchar_t temp_res_key[MHIOC_RESV_KEY_SIZE]; 7547 7548 7549 /* 7550 * see if there are any other paths available; if none, 7551 * then there is nothing to do. 7552 */ 7553 cdip = svp->svp_svl->svl_dip; 7554 rval = mdi_select_path(cdip, NULL, MDI_SELECT_ONLINE_PATH | 7555 MDI_SELECT_STANDBY_PATH, NULL, &pip); 7556 if ((rval != MDI_SUCCESS) || (pip == NULL)) { 7557 VHCI_DEBUG(4, (CE_NOTE, NULL, 7558 "%s%d: vhci_pgr_validate_and_register: first path\n", 7559 ddi_driver_name(cdip), ddi_get_instance(cdip))); 7560 return (1); 7561 } 7562 7563 vlun = svp->svp_svl; 7564 prout = &vlun->svl_prout; 7565 ASSERT(vlun->svl_pgr_active != 0); 7566 7567 /* 7568 * When the path was busy/offlined, some other host might have 7569 * cleared this key. Validate key on some other path first. 7570 * If it fails, return failure. 7571 */ 7572 7573 npip = pip; 7574 pip = NULL; 7575 success = 0; 7576 7577 /* Save the res key */ 7578 bcopy(prout->res_key, temp_res_key, MHIOC_RESV_KEY_SIZE); 7579 7580 /* 7581 * Sometimes CDB from application can be a Register_And_Ignore. 7582 * Instead of validation, this cdb would result in force registration. 7583 * Convert it to normal cdb for validation. 7584 * After that be sure to restore the cdb. 7585 */ 7586 cdb_1 = vlun->svl_cdb[1]; 7587 vlun->svl_cdb[1] &= 0xe0; 7588 7589 do { 7590 osvp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(npip); 7591 if (osvp == NULL) { 7592 VHCI_DEBUG(4, (CE_NOTE, NULL, 7593 "vhci_pgr_validate_and_register: no " 7594 "client priv! 0x%p offlined?\n", 7595 (void *)npip)); 7596 goto next_path_1; 7597 } 7598 7599 if (osvp == svp) { 7600 VHCI_DEBUG(4, (CE_NOTE, NULL, 7601 "vhci_pgr_validate_and_register: same svp 0x%p" 7602 " npip 0x%p vlun 0x%p\n", 7603 (void *)svp, (void *)npip, (void *)vlun)); 7604 goto next_path_1; 7605 } 7606 7607 VHCI_DEBUG(4, (CE_NOTE, NULL, 7608 "vhci_pgr_validate_and_register: First validate on" 7609 " osvp 0x%p being done. vlun 0x%p thread 0x%p Before bcopy" 7610 " cdb1 %x\n", (void *)osvp, (void *)vlun, 7611 (void *)curthread, vlun->svl_cdb[1])); 7612 vhci_print_prout_keys(vlun, "v_pgr_val_reg: before bcopy:"); 7613 7614 bcopy(prout->service_key, prout->res_key, MHIOC_RESV_KEY_SIZE); 7615 7616 VHCI_DEBUG(4, (CE_WARN, NULL, "vlun 0x%p After bcopy", 7617 (void *)vlun)); 7618 vhci_print_prout_keys(vlun, "v_pgr_val_reg: after bcopy: "); 7619 7620 rval = vhci_do_prout(osvp); 7621 if (rval == 1) { 7622 VHCI_DEBUG(4, (CE_NOTE, NULL, 7623 "%s%d: vhci_pgr_validate_and_register: key" 7624 " validated thread 0x%p\n", ddi_driver_name(cdip), 7625 ddi_get_instance(cdip), (void *)curthread)); 7626 pip = npip; 7627 success = 1; 7628 break; 7629 } else { 7630 VHCI_DEBUG(4, (CE_NOTE, NULL, 7631 "vhci_pgr_validate_and_register: First validation" 7632 " on osvp 0x%p failed %x\n", (void *)osvp, rval)); 7633 vhci_print_prout_keys(vlun, "v_pgr_val_reg: failed:"); 7634 } 7635 7636 /* 7637 * Try other paths 7638 */ 7639 next_path_1: 7640 pip = npip; 7641 rval = mdi_select_path(cdip, NULL, 7642 MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH, 7643 pip, &npip); 7644 mdi_rele_path(pip); 7645 } while ((rval == MDI_SUCCESS) && (npip != NULL)); 7646 7647 7648 /* Be sure to restore original cdb */ 7649 vlun->svl_cdb[1] = cdb_1; 7650 7651 /* Restore the res_key */ 7652 bcopy(temp_res_key, prout->res_key, MHIOC_RESV_KEY_SIZE); 7653 7654 /* 7655 * If key could not be registered on any path for the first time, 7656 * return success as online should still continue. 7657 */ 7658 if (success == 0) { 7659 return (1); 7660 } 7661 7662 ASSERT(pip != NULL); 7663 7664 /* 7665 * Force register on new path 7666 */ 7667 cdb_1 = vlun->svl_cdb[1]; /* store the cdb */ 7668 7669 vlun->svl_cdb[1] &= 0xe0; 7670 vlun->svl_cdb[1] |= VHCI_PROUT_R_AND_IGNORE; 7671 7672 vhci_print_prout_keys(vlun, "v_pgr_val_reg: keys before bcopy: "); 7673 7674 bcopy(prout->active_service_key, prout->service_key, 7675 MHIOC_RESV_KEY_SIZE); 7676 bcopy(prout->active_res_key, prout->res_key, MHIOC_RESV_KEY_SIZE); 7677 7678 vhci_print_prout_keys(vlun, "v_pgr_val_reg:keys after bcopy: "); 7679 7680 rval = vhci_do_prout(svp); 7681 vlun->svl_cdb[1] = cdb_1; /* restore the cdb */ 7682 if (rval != 1) { 7683 VHCI_DEBUG(4, (CE_NOTE, NULL, 7684 "vhci_pgr_validate_and_register: register on new" 7685 " path 0x%p svp 0x%p failed %x\n", 7686 (void *)pip, (void *)svp, rval)); 7687 vhci_print_prout_keys(vlun, "v_pgr_val_reg: reg failed: "); 7688 mdi_rele_path(pip); 7689 return (0); 7690 } 7691 7692 if (bcmp(prout->service_key, zero_key, MHIOC_RESV_KEY_SIZE) == 0) { 7693 VHCI_DEBUG(4, (CE_NOTE, NULL, 7694 "vhci_pgr_validate_and_register: zero service key\n")); 7695 mdi_rele_path(pip); 7696 return (rval); 7697 } 7698 7699 /* 7700 * While the key was force registered, some other host might have 7701 * cleared the key. Re-validate key on another pre-existing path 7702 * before declaring success. 7703 */ 7704 npip = pip; 7705 pip = NULL; 7706 7707 /* 7708 * Sometimes CDB from application can be Register and Ignore. 7709 * Instead of validation, it would result in force registration. 7710 * Convert it to normal cdb for validation. 7711 * After that be sure to restore the cdb. 7712 */ 7713 cdb_1 = vlun->svl_cdb[1]; 7714 vlun->svl_cdb[1] &= 0xe0; 7715 success = 0; 7716 7717 do { 7718 osvp = (scsi_vhci_priv_t *) 7719 mdi_pi_get_vhci_private(npip); 7720 if (osvp == NULL) { 7721 VHCI_DEBUG(4, (CE_NOTE, NULL, 7722 "vhci_pgr_validate_and_register: no " 7723 "client priv! 0x%p offlined?\n", 7724 (void *)npip)); 7725 goto next_path_2; 7726 } 7727 7728 if (osvp == svp) { 7729 VHCI_DEBUG(4, (CE_NOTE, NULL, 7730 "vhci_pgr_validate_and_register: same osvp 0x%p" 7731 " npip 0x%p vlun 0x%p\n", 7732 (void *)svp, (void *)npip, (void *)vlun)); 7733 goto next_path_2; 7734 } 7735 7736 VHCI_DEBUG(4, (CE_NOTE, NULL, 7737 "vhci_pgr_validate_and_register: Re-validation on" 7738 " osvp 0x%p being done. vlun 0x%p Before bcopy cdb1 %x\n", 7739 (void *)osvp, (void *)vlun, vlun->svl_cdb[1])); 7740 vhci_print_prout_keys(vlun, "v_pgr_val_reg: before bcopy: "); 7741 7742 bcopy(prout->service_key, prout->res_key, MHIOC_RESV_KEY_SIZE); 7743 7744 vhci_print_prout_keys(vlun, "v_pgr_val_reg: after bcopy: "); 7745 7746 rval = vhci_do_prout(osvp); 7747 if (rval == 1) { 7748 VHCI_DEBUG(4, (CE_NOTE, NULL, 7749 "%s%d: vhci_pgr_validate_and_register: key" 7750 " validated thread 0x%p\n", ddi_driver_name(cdip), 7751 ddi_get_instance(cdip), (void *)curthread)); 7752 pip = npip; 7753 success = 1; 7754 break; 7755 } else { 7756 VHCI_DEBUG(4, (CE_NOTE, NULL, 7757 "vhci_pgr_validate_and_register: Re-validation on" 7758 " osvp 0x%p failed %x\n", (void *)osvp, rval)); 7759 vhci_print_prout_keys(vlun, 7760 "v_pgr_val_reg: reval failed: "); 7761 } 7762 7763 /* 7764 * Try other paths 7765 */ 7766 next_path_2: 7767 pip = npip; 7768 rval = mdi_select_path(cdip, NULL, 7769 MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH, 7770 pip, &npip); 7771 mdi_rele_path(pip); 7772 } while ((rval == MDI_SUCCESS) && (npip != NULL)); 7773 7774 /* Be sure to restore original cdb */ 7775 vlun->svl_cdb[1] = cdb_1; 7776 7777 if (success == 1) { 7778 /* Successfully validated registration */ 7779 mdi_rele_path(pip); 7780 return (1); 7781 } 7782 7783 VHCI_DEBUG(4, (CE_WARN, NULL, "key validation failed")); 7784 7785 /* 7786 * key invalid, back out by registering key value of 0 7787 */ 7788 VHCI_DEBUG(4, (CE_NOTE, NULL, 7789 "vhci_pgr_validate_and_register: backout on" 7790 " svp 0x%p being done\n", (void *)svp)); 7791 vhci_print_prout_keys(vlun, "v_pgr_val_reg: before bcopy: "); 7792 7793 bcopy(prout->service_key, prout->res_key, MHIOC_RESV_KEY_SIZE); 7794 bzero(prout->service_key, MHIOC_RESV_KEY_SIZE); 7795 7796 vhci_print_prout_keys(vlun, "v_pgr_val_reg: before bcopy: "); 7797 7798 /* 7799 * Get a new path 7800 */ 7801 rval = mdi_select_path(cdip, NULL, MDI_SELECT_ONLINE_PATH | 7802 MDI_SELECT_STANDBY_PATH, NULL, &pip); 7803 if ((rval != MDI_SUCCESS) || (pip == NULL)) { 7804 VHCI_DEBUG(4, (CE_NOTE, NULL, 7805 "%s%d: vhci_pgr_validate_and_register: no valid pip\n", 7806 ddi_driver_name(cdip), ddi_get_instance(cdip))); 7807 return (0); 7808 } 7809 7810 if ((rval = vhci_do_prout(svp)) != 1) { 7811 VHCI_DEBUG(4, (CE_NOTE, NULL, 7812 "vhci_pgr_validate_and_register: backout on" 7813 " svp 0x%p failed\n", (void *)svp)); 7814 vhci_print_prout_keys(vlun, "backout failed"); 7815 7816 VHCI_DEBUG(4, (CE_WARN, NULL, 7817 "%s%d: vhci_pgr_validate_and_register: key" 7818 " validation and backout failed", ddi_driver_name(cdip), 7819 ddi_get_instance(cdip))); 7820 if (rval == VHCI_PGR_ILLEGALOP) { 7821 VHCI_DEBUG(4, (CE_WARN, NULL, 7822 "%s%d: vhci_pgr_validate_and_register: key" 7823 " already cleared", ddi_driver_name(cdip), 7824 ddi_get_instance(cdip))); 7825 rval = 1; 7826 } else 7827 rval = 0; 7828 } else { 7829 VHCI_DEBUG(4, (CE_NOTE, NULL, 7830 "%s%d: vhci_pgr_validate_and_register: key" 7831 " validation failed, key backed out\n", 7832 ddi_driver_name(cdip), ddi_get_instance(cdip))); 7833 vhci_print_prout_keys(vlun, "v_pgr_val_reg: key backed out: "); 7834 } 7835 mdi_rele_path(pip); 7836 7837 return (rval); 7838 } 7839 7840 /* 7841 * taskq routine to dispatch a scsi cmd to vhci_scsi_start. This ensures 7842 * that vhci_scsi_start is not called in interrupt context. 7843 * As the upper layer gets TRAN_ACCEPT when the command is dispatched, we 7844 * need to complete the command if something goes wrong. 7845 */ 7846 static void 7847 vhci_dispatch_scsi_start(void *arg) 7848 { 7849 struct vhci_pkt *vpkt = (struct vhci_pkt *)arg; 7850 struct scsi_pkt *tpkt = vpkt->vpkt_tgt_pkt; 7851 int rval = TRAN_BUSY; 7852 7853 VHCI_DEBUG(6, (CE_NOTE, NULL, "!vhci_dispatch_scsi_start: sending" 7854 " scsi-2 reserve for 0x%p\n", 7855 (void *)ADDR2DIP(&(vpkt->vpkt_tgt_pkt->pkt_address)))); 7856 7857 /* 7858 * To prevent the taskq from being called recursively we set the 7859 * the VHCI_PKT_THRU_TASKQ bit in the vhci_pkt_states. 7860 */ 7861 vpkt->vpkt_state |= VHCI_PKT_THRU_TASKQ; 7862 7863 /* 7864 * Wait for the transport to get ready to send packets 7865 * and if it times out, it will return something other than 7866 * TRAN_BUSY. The vhci_reserve_delay may want to 7867 * get tuned for other transports and is therefore a global. 7868 * Using delay since this routine is called by taskq dispatch 7869 * and not called during interrupt context. 7870 */ 7871 while ((rval = vhci_scsi_start(&(vpkt->vpkt_tgt_pkt->pkt_address), 7872 vpkt->vpkt_tgt_pkt)) == TRAN_BUSY) { 7873 delay(drv_usectohz(vhci_reserve_delay)); 7874 } 7875 7876 switch (rval) { 7877 case TRAN_ACCEPT: 7878 return; 7879 7880 default: 7881 /* 7882 * This pkt shall be retried, and to ensure another taskq 7883 * is dispatched for it, clear the VHCI_PKT_THRU_TASKQ 7884 * flag. 7885 */ 7886 vpkt->vpkt_state &= ~VHCI_PKT_THRU_TASKQ; 7887 7888 /* Ensure that the pkt is retried without a reset */ 7889 tpkt->pkt_reason = CMD_ABORTED; 7890 tpkt->pkt_statistics |= STAT_ABORTED; 7891 VHCI_DEBUG(1, (CE_WARN, NULL, "!vhci_dispatch_scsi_start: " 7892 "TRAN_rval %d returned for dip 0x%p", rval, 7893 (void *)ADDR2DIP(&(vpkt->vpkt_tgt_pkt->pkt_address)))); 7894 break; 7895 } 7896 7897 /* 7898 * vpkt_org_vpkt should always be NULL here if the retry command 7899 * has been successfully dispatched. If vpkt_org_vpkt != NULL at 7900 * this point, it is an error so restore the original vpkt and 7901 * return an error to the target driver so it can retry the 7902 * command as appropriate. 7903 */ 7904 if (vpkt->vpkt_org_vpkt != NULL) { 7905 struct vhci_pkt *new_vpkt = vpkt; 7906 scsi_vhci_priv_t *svp = (scsi_vhci_priv_t *) 7907 mdi_pi_get_vhci_private(vpkt->vpkt_path); 7908 7909 vpkt = vpkt->vpkt_org_vpkt; 7910 7911 vpkt->vpkt_tgt_pkt->pkt_reason = tpkt->pkt_reason; 7912 vpkt->vpkt_tgt_pkt->pkt_statistics = tpkt->pkt_statistics; 7913 7914 vhci_scsi_destroy_pkt(&svp->svp_psd->sd_address, 7915 new_vpkt->vpkt_tgt_pkt); 7916 7917 tpkt = vpkt->vpkt_tgt_pkt; 7918 } 7919 7920 scsi_hba_pkt_comp(tpkt); 7921 } 7922 7923 static void 7924 vhci_initiate_auto_failback(void *arg) 7925 { 7926 struct scsi_vhci_lun *vlun = (struct scsi_vhci_lun *)arg; 7927 dev_info_t *vdip, *cdip; 7928 int held; 7929 7930 cdip = vlun->svl_dip; 7931 vdip = ddi_get_parent(cdip); 7932 7933 VHCI_HOLD_LUN(vlun, VH_SLEEP, held); 7934 7935 /* 7936 * Perform a final check to see if the active path class is indeed 7937 * not the preferred path class. As in the time the auto failback 7938 * was dispatched, an external failover could have been detected. 7939 * [Some other host could have detected this condition and triggered 7940 * the auto failback before]. 7941 * In such a case if we go ahead with failover we will be negating the 7942 * whole purpose of auto failback. 7943 */ 7944 mutex_enter(&vlun->svl_mutex); 7945 if (vlun->svl_active_pclass != NULL) { 7946 char *best_pclass; 7947 struct scsi_failover_ops *fo; 7948 7949 fo = vlun->svl_fops; 7950 7951 (void) fo->sfo_pathclass_next(NULL, &best_pclass, 7952 vlun->svl_fops_ctpriv); 7953 if (strcmp(vlun->svl_active_pclass, best_pclass) == 0) { 7954 mutex_exit(&vlun->svl_mutex); 7955 VHCI_RELEASE_LUN(vlun); 7956 VHCI_DEBUG(1, (CE_NOTE, NULL, "Not initiating " 7957 "auto failback for %s as %s pathclass already " 7958 "active.\n", vlun->svl_lun_wwn, best_pclass)); 7959 return; 7960 } 7961 } 7962 mutex_exit(&vlun->svl_mutex); 7963 if (mdi_failover(vdip, vlun->svl_dip, MDI_FAILOVER_SYNC) 7964 == MDI_SUCCESS) { 7965 vhci_log(CE_NOTE, vdip, "!Auto failback operation " 7966 "succeeded for device %s (GUID %s)", 7967 ddi_node_name(cdip), vlun->svl_lun_wwn); 7968 } else { 7969 vhci_log(CE_NOTE, vdip, "!Auto failback operation " 7970 "failed for device %s (GUID %s)", 7971 ddi_node_name(cdip), vlun->svl_lun_wwn); 7972 } 7973 VHCI_RELEASE_LUN(vlun); 7974 } 7975 7976 #ifdef DEBUG 7977 static void 7978 vhci_print_prin_keys(vhci_prin_readkeys_t *prin, int numkeys) 7979 { 7980 vhci_clean_print(NULL, 5, "Current PGR Keys", 7981 (uchar_t *)prin, numkeys * 8); 7982 } 7983 #endif 7984 7985 static void 7986 vhci_print_prout_keys(scsi_vhci_lun_t *vlun, char *msg) 7987 { 7988 int i; 7989 vhci_prout_t *prout; 7990 char buf1[4 * MHIOC_RESV_KEY_SIZE + 1]; 7991 char buf2[4 * MHIOC_RESV_KEY_SIZE + 1]; 7992 char buf3[4 * MHIOC_RESV_KEY_SIZE + 1]; 7993 char buf4[4 * MHIOC_RESV_KEY_SIZE + 1]; 7994 7995 prout = &vlun->svl_prout; 7996 7997 for (i = 0; i < MHIOC_RESV_KEY_SIZE; i++) 7998 (void) sprintf(&buf1[4 * i], "[%02x]", prout->res_key[i]); 7999 for (i = 0; i < MHIOC_RESV_KEY_SIZE; i++) 8000 (void) sprintf(&buf2[(4 * i)], "[%02x]", prout->service_key[i]); 8001 for (i = 0; i < MHIOC_RESV_KEY_SIZE; i++) 8002 (void) sprintf(&buf3[4 * i], "[%02x]", 8003 prout->active_res_key[i]); 8004 for (i = 0; i < MHIOC_RESV_KEY_SIZE; i++) 8005 (void) sprintf(&buf4[4 * i], "[%02x]", 8006 prout->active_service_key[i]); 8007 8008 /* Printing all in one go. Otherwise it will jumble up */ 8009 VHCI_DEBUG(5, (CE_CONT, NULL, "%s vlun 0x%p, thread 0x%p\n" 8010 "res_key: : %s\n" 8011 "service_key : %s\n" 8012 "active_res_key : %s\n" 8013 "active_service_key: %s\n", 8014 msg, (void *)vlun, (void *)curthread, buf1, buf2, buf3, buf4)); 8015 } 8016 8017 /* 8018 * Called from vhci_scsi_start to update the pHCI pkt with target packet. 8019 */ 8020 static void 8021 vhci_update_pHCI_pkt(struct vhci_pkt *vpkt, struct scsi_pkt *pkt) 8022 { 8023 8024 ASSERT(vpkt->vpkt_hba_pkt); 8025 8026 vpkt->vpkt_hba_pkt->pkt_flags = pkt->pkt_flags; 8027 vpkt->vpkt_hba_pkt->pkt_flags |= FLAG_NOQUEUE; 8028 8029 if ((vpkt->vpkt_hba_pkt->pkt_flags & FLAG_NOINTR) || 8030 MDI_PI_IS_SUSPENDED(vpkt->vpkt_path)) { 8031 /* 8032 * Polled Command is requested or HBA is in 8033 * suspended state 8034 */ 8035 vpkt->vpkt_hba_pkt->pkt_flags |= FLAG_NOINTR; 8036 vpkt->vpkt_hba_pkt->pkt_comp = NULL; 8037 } else { 8038 vpkt->vpkt_hba_pkt->pkt_comp = vhci_intr; 8039 } 8040 vpkt->vpkt_hba_pkt->pkt_time = pkt->pkt_time; 8041 bcopy(pkt->pkt_cdbp, vpkt->vpkt_hba_pkt->pkt_cdbp, 8042 vpkt->vpkt_tgt_init_cdblen); 8043 vpkt->vpkt_hba_pkt->pkt_resid = pkt->pkt_resid; 8044 8045 /* Re-initialize the following pHCI packet state information */ 8046 vpkt->vpkt_hba_pkt->pkt_state = 0; 8047 vpkt->vpkt_hba_pkt->pkt_statistics = 0; 8048 vpkt->vpkt_hba_pkt->pkt_reason = 0; 8049 } 8050 8051 static int 8052 vhci_scsi_bus_power(dev_info_t *parent, void *impl_arg, pm_bus_power_op_t op, 8053 void *arg, void *result) 8054 { 8055 int ret = DDI_SUCCESS; 8056 8057 /* 8058 * Generic processing in MPxIO framework 8059 */ 8060 ret = mdi_bus_power(parent, impl_arg, op, arg, result); 8061 8062 switch (ret) { 8063 case MDI_SUCCESS: 8064 ret = DDI_SUCCESS; 8065 break; 8066 case MDI_FAILURE: 8067 ret = DDI_FAILURE; 8068 break; 8069 default: 8070 break; 8071 } 8072 8073 return (ret); 8074 } 8075 8076 static int 8077 vhci_pHCI_cap(struct scsi_address *ap, char *cap, int val, int whom, 8078 mdi_pathinfo_t *pip) 8079 { 8080 dev_info_t *cdip; 8081 mdi_pathinfo_t *npip = NULL; 8082 scsi_vhci_priv_t *svp = NULL; 8083 struct scsi_address *pap = NULL; 8084 scsi_hba_tran_t *hba = NULL; 8085 int sps; 8086 int mps_flag; 8087 int rval = 0; 8088 8089 mps_flag = (MDI_SELECT_ONLINE_PATH | MDI_SELECT_STANDBY_PATH); 8090 if (pip) { 8091 /* 8092 * If the call is from vhci_pathinfo_state_change, 8093 * then this path was busy and is becoming ready to accept IO. 8094 */ 8095 ASSERT(ap != NULL); 8096 hba = ap->a_hba_tran; 8097 ASSERT(hba != NULL); 8098 rval = scsi_ifsetcap(ap, cap, val, whom); 8099 8100 VHCI_DEBUG(2, (CE_NOTE, NULL, 8101 "!vhci_pHCI_cap: only on path %p, ap %p, rval %x\n", 8102 (void *)pip, (void *)ap, rval)); 8103 8104 return (rval); 8105 } 8106 8107 /* 8108 * Set capability on all the pHCIs. 8109 * If any path is busy, then the capability would be set by 8110 * vhci_pathinfo_state_change. 8111 */ 8112 8113 cdip = ADDR2DIP(ap); 8114 ASSERT(cdip != NULL); 8115 sps = mdi_select_path(cdip, NULL, mps_flag, NULL, &pip); 8116 if ((sps != MDI_SUCCESS) || (pip == NULL)) { 8117 VHCI_DEBUG(2, (CE_WARN, NULL, 8118 "!vhci_pHCI_cap: Unable to get a path, dip 0x%p", 8119 (void *)cdip)); 8120 return (0); 8121 } 8122 8123 again: 8124 svp = (scsi_vhci_priv_t *)mdi_pi_get_vhci_private(pip); 8125 if (svp == NULL) { 8126 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_pHCI_cap: " 8127 "priv is NULL, pip 0x%p", (void *)pip)); 8128 mdi_rele_path(pip); 8129 return (rval); 8130 } 8131 8132 if (svp->svp_psd == NULL) { 8133 VHCI_DEBUG(2, (CE_WARN, NULL, "!vhci_pHCI_cap: " 8134 "psd is NULL, pip 0x%p, svp 0x%p", 8135 (void *)pip, (void *)svp)); 8136 mdi_rele_path(pip); 8137 return (rval); 8138 } 8139 8140 pap = &svp->svp_psd->sd_address; 8141 ASSERT(pap != NULL); 8142 hba = pap->a_hba_tran; 8143 ASSERT(hba != NULL); 8144 8145 if (hba->tran_setcap != NULL) { 8146 rval = scsi_ifsetcap(pap, cap, val, whom); 8147 8148 VHCI_DEBUG(2, (CE_NOTE, NULL, 8149 "!vhci_pHCI_cap: path %p, ap %p, rval %x\n", 8150 (void *)pip, (void *)ap, rval)); 8151 8152 /* 8153 * Select next path and issue the setcap, repeat 8154 * until all paths are exhausted 8155 */ 8156 sps = mdi_select_path(cdip, NULL, mps_flag, pip, &npip); 8157 if ((sps != MDI_SUCCESS) || (npip == NULL)) { 8158 mdi_rele_path(pip); 8159 return (1); 8160 } 8161 mdi_rele_path(pip); 8162 pip = npip; 8163 goto again; 8164 } 8165 mdi_rele_path(pip); 8166 return (rval); 8167 } 8168 8169 static int 8170 vhci_scsi_bus_config(dev_info_t *pdip, uint_t flags, ddi_bus_config_op_t op, 8171 void *arg, dev_info_t **child) 8172 { 8173 char *guid; 8174 8175 if (vhci_bus_config_debug) 8176 flags |= NDI_DEVI_DEBUG; 8177 8178 if (op == BUS_CONFIG_ONE || op == BUS_UNCONFIG_ONE) 8179 guid = vhci_devnm_to_guid((char *)arg); 8180 else 8181 guid = NULL; 8182 8183 if (mdi_vhci_bus_config(pdip, flags, op, arg, child, guid) 8184 == MDI_SUCCESS) 8185 return (NDI_SUCCESS); 8186 else 8187 return (NDI_FAILURE); 8188 } 8189 8190 static int 8191 vhci_scsi_bus_unconfig(dev_info_t *pdip, uint_t flags, ddi_bus_config_op_t op, 8192 void *arg) 8193 { 8194 if (vhci_bus_config_debug) 8195 flags |= NDI_DEVI_DEBUG; 8196 8197 return (ndi_busop_bus_unconfig(pdip, flags, op, arg)); 8198 } 8199 8200 /* 8201 * Take the original vhci_pkt, create a duplicate of the pkt for resending 8202 * as though it originated in ssd. 8203 */ 8204 static struct scsi_pkt * 8205 vhci_create_retry_pkt(struct vhci_pkt *vpkt) 8206 { 8207 struct vhci_pkt *new_vpkt = NULL; 8208 struct scsi_pkt *pkt = NULL; 8209 8210 scsi_vhci_priv_t *svp = (scsi_vhci_priv_t *) 8211 mdi_pi_get_vhci_private(vpkt->vpkt_path); 8212 8213 /* 8214 * Ensure consistent data at completion time by setting PKT_CONSISTENT 8215 */ 8216 pkt = vhci_scsi_init_pkt(&svp->svp_psd->sd_address, pkt, 8217 vpkt->vpkt_tgt_init_bp, vpkt->vpkt_tgt_init_cdblen, 8218 vpkt->vpkt_tgt_init_scblen, 0, PKT_CONSISTENT, NULL_FUNC, NULL); 8219 if (pkt != NULL) { 8220 new_vpkt = TGTPKT2VHCIPKT(pkt); 8221 8222 pkt->pkt_address = vpkt->vpkt_tgt_pkt->pkt_address; 8223 pkt->pkt_flags = vpkt->vpkt_tgt_pkt->pkt_flags; 8224 pkt->pkt_time = vpkt->vpkt_tgt_pkt->pkt_time; 8225 pkt->pkt_comp = vpkt->vpkt_tgt_pkt->pkt_comp; 8226 8227 pkt->pkt_resid = 0; 8228 pkt->pkt_statistics = 0; 8229 pkt->pkt_reason = 0; 8230 8231 bcopy(vpkt->vpkt_tgt_pkt->pkt_cdbp, 8232 pkt->pkt_cdbp, vpkt->vpkt_tgt_init_cdblen); 8233 8234 /* 8235 * Save a pointer to the original vhci_pkt 8236 */ 8237 new_vpkt->vpkt_org_vpkt = vpkt; 8238 } 8239 8240 return (pkt); 8241 } 8242 8243 /* 8244 * Copy the successful completion information from the hba packet into 8245 * the original target pkt from the upper layer. Returns the original 8246 * vpkt and destroys the new vpkt from the internal retry. 8247 */ 8248 static struct vhci_pkt * 8249 vhci_sync_retry_pkt(struct vhci_pkt *vpkt) 8250 { 8251 struct vhci_pkt *ret_vpkt = NULL; 8252 struct scsi_pkt *tpkt = NULL; 8253 struct scsi_pkt *hba_pkt = NULL; 8254 scsi_vhci_priv_t *svp = (scsi_vhci_priv_t *) 8255 mdi_pi_get_vhci_private(vpkt->vpkt_path); 8256 8257 ASSERT(vpkt->vpkt_org_vpkt != NULL); 8258 VHCI_DEBUG(0, (CE_NOTE, NULL, "vhci_sync_retry_pkt: Retry pkt " 8259 "completed successfully!\n")); 8260 8261 ret_vpkt = vpkt->vpkt_org_vpkt; 8262 tpkt = ret_vpkt->vpkt_tgt_pkt; 8263 hba_pkt = vpkt->vpkt_hba_pkt; 8264 8265 /* 8266 * Copy the good status into the target driver's packet 8267 */ 8268 *(tpkt->pkt_scbp) = *(hba_pkt->pkt_scbp); 8269 tpkt->pkt_resid = hba_pkt->pkt_resid; 8270 tpkt->pkt_state = hba_pkt->pkt_state; 8271 tpkt->pkt_statistics = hba_pkt->pkt_statistics; 8272 tpkt->pkt_reason = hba_pkt->pkt_reason; 8273 8274 /* 8275 * Destroy the internally created vpkt for the retry 8276 */ 8277 vhci_scsi_destroy_pkt(&svp->svp_psd->sd_address, 8278 vpkt->vpkt_tgt_pkt); 8279 8280 return (ret_vpkt); 8281 } 8282 8283 /* restart the request sense request */ 8284 static void 8285 vhci_uscsi_restart_sense(void *arg) 8286 { 8287 struct buf *rqbp; 8288 struct buf *bp; 8289 struct scsi_pkt *rqpkt = (struct scsi_pkt *)arg; 8290 mp_uscsi_cmd_t *mp_uscmdp; 8291 8292 VHCI_DEBUG(4, (CE_WARN, NULL, 8293 "vhci_uscsi_restart_sense: enter: rqpkt: %p", (void *)rqpkt)); 8294 8295 if (scsi_transport(rqpkt) != TRAN_ACCEPT) { 8296 /* if it fails - need to wakeup the original command */ 8297 mp_uscmdp = rqpkt->pkt_private; 8298 bp = mp_uscmdp->cmdbp; 8299 rqbp = mp_uscmdp->rqbp; 8300 ASSERT(mp_uscmdp && bp && rqbp); 8301 scsi_free_consistent_buf(rqbp); 8302 scsi_destroy_pkt(rqpkt); 8303 bp->b_resid = bp->b_bcount; 8304 bioerror(bp, EIO); 8305 biodone(bp); 8306 } 8307 } 8308 8309 /* 8310 * auto-rqsense is not enabled so we have to retrieve the request sense 8311 * manually. 8312 */ 8313 static int 8314 vhci_uscsi_send_sense(struct scsi_pkt *pkt, mp_uscsi_cmd_t *mp_uscmdp) 8315 { 8316 struct buf *rqbp, *cmdbp; 8317 struct scsi_pkt *rqpkt; 8318 int rval = 0; 8319 8320 cmdbp = mp_uscmdp->cmdbp; 8321 ASSERT(cmdbp != NULL); 8322 8323 VHCI_DEBUG(4, (CE_WARN, NULL, 8324 "vhci_uscsi_send_sense: enter: bp: %p pkt: %p scmd: %p", 8325 (void *)cmdbp, (void *)pkt, (void *)mp_uscmdp)); 8326 /* set up the packet information and cdb */ 8327 if ((rqbp = scsi_alloc_consistent_buf(mp_uscmdp->ap, NULL, 8328 SENSE_LENGTH, B_READ, NULL, NULL)) == NULL) { 8329 return (-1); 8330 } 8331 8332 if ((rqpkt = scsi_init_pkt(mp_uscmdp->ap, NULL, rqbp, 8333 CDB_GROUP0, 1, 0, PKT_CONSISTENT, NULL, NULL)) == NULL) { 8334 scsi_free_consistent_buf(rqbp); 8335 return (-1); 8336 } 8337 8338 (void) scsi_setup_cdb((union scsi_cdb *)(intptr_t)rqpkt->pkt_cdbp, 8339 SCMD_REQUEST_SENSE, 0, SENSE_LENGTH, 0); 8340 8341 mp_uscmdp->rqbp = rqbp; 8342 rqbp->b_private = mp_uscmdp; 8343 rqpkt->pkt_flags |= FLAG_SENSING; 8344 rqpkt->pkt_time = 60; 8345 rqpkt->pkt_comp = vhci_uscsi_iodone; 8346 rqpkt->pkt_private = mp_uscmdp; 8347 8348 /* 8349 * NOTE: This code path is related to MPAPI uscsi(4I), so path 8350 * selection is not based on path_instance. 8351 */ 8352 if (scsi_pkt_allocated_correctly(rqpkt)) 8353 rqpkt->pkt_path_instance = 0; 8354 8355 switch (scsi_transport(rqpkt)) { 8356 case TRAN_ACCEPT: 8357 VHCI_DEBUG(1, (CE_NOTE, NULL, "vhci_uscsi_send_sense: " 8358 "transport accepted.")); 8359 break; 8360 case TRAN_BUSY: 8361 VHCI_DEBUG(1, (CE_NOTE, NULL, "vhci_uscsi_send_sense: " 8362 "transport busy, setting timeout.")); 8363 vhci_restart_timeid = timeout(vhci_uscsi_restart_sense, rqpkt, 8364 (drv_usectohz(5 * 1000000))); 8365 break; 8366 default: 8367 VHCI_DEBUG(1, (CE_NOTE, NULL, "vhci_uscsi_send_sense: " 8368 "transport failed")); 8369 scsi_free_consistent_buf(rqbp); 8370 scsi_destroy_pkt(rqpkt); 8371 rval = -1; 8372 } 8373 8374 return (rval); 8375 } 8376 8377 /* 8378 * done routine for the mpapi uscsi command - this is behaving as though 8379 * FLAG_DIAGNOSE is set meaning there are no retries except for a manual 8380 * request sense. 8381 */ 8382 void 8383 vhci_uscsi_iodone(struct scsi_pkt *pkt) 8384 { 8385 struct buf *bp; 8386 mp_uscsi_cmd_t *mp_uscmdp; 8387 struct uscsi_cmd *uscmdp; 8388 struct scsi_arq_status *arqstat; 8389 int err; 8390 8391 mp_uscmdp = (mp_uscsi_cmd_t *)pkt->pkt_private; 8392 uscmdp = mp_uscmdp->uscmdp; 8393 bp = mp_uscmdp->cmdbp; 8394 ASSERT(bp != NULL); 8395 VHCI_DEBUG(4, (CE_WARN, NULL, 8396 "vhci_uscsi_iodone: enter: bp: %p pkt: %p scmd: %p", 8397 (void *)bp, (void *)pkt, (void *)mp_uscmdp)); 8398 /* Save the status and the residual into the uscsi_cmd struct */ 8399 uscmdp->uscsi_status = ((*(pkt)->pkt_scbp) & STATUS_MASK); 8400 uscmdp->uscsi_resid = bp->b_resid; 8401 8402 /* return on a very successful command */ 8403 if (pkt->pkt_reason == CMD_CMPLT && 8404 SCBP_C(pkt) == 0 && ((pkt->pkt_flags & FLAG_SENSING) == 0) && 8405 pkt->pkt_resid == 0) { 8406 mdi_pi_kstat_iosupdate(mp_uscmdp->pip, bp); 8407 scsi_destroy_pkt(pkt); 8408 biodone(bp); 8409 return; 8410 } 8411 VHCI_DEBUG(4, (CE_NOTE, NULL, "iodone: reason=0x%x " 8412 " pkt_resid=%ld pkt_state: 0x%x b_count: %ld b_resid: %ld", 8413 pkt->pkt_reason, pkt->pkt_resid, 8414 pkt->pkt_state, bp->b_bcount, bp->b_resid)); 8415 8416 err = EIO; 8417 8418 arqstat = (struct scsi_arq_status *)(intptr_t)(pkt->pkt_scbp); 8419 if (pkt->pkt_reason != CMD_CMPLT) { 8420 /* 8421 * The command did not complete. 8422 */ 8423 VHCI_DEBUG(4, (CE_NOTE, NULL, 8424 "vhci_uscsi_iodone: command did not complete." 8425 " reason: %x flag: %x", pkt->pkt_reason, pkt->pkt_flags)); 8426 if (pkt->pkt_flags & FLAG_SENSING) { 8427 MDI_PI_ERRSTAT(mp_uscmdp->pip, MDI_PI_TRANSERR); 8428 } else if (pkt->pkt_reason == CMD_TIMEOUT) { 8429 MDI_PI_ERRSTAT(mp_uscmdp->pip, MDI_PI_HARDERR); 8430 err = ETIMEDOUT; 8431 } 8432 } else if (pkt->pkt_state & STATE_ARQ_DONE && mp_uscmdp->arq_enabled) { 8433 /* 8434 * The auto-rqsense happened, and the packet has a filled-in 8435 * scsi_arq_status structure, pointed to by pkt_scbp. 8436 */ 8437 VHCI_DEBUG(4, (CE_NOTE, NULL, 8438 "vhci_uscsi_iodone: received auto-requested sense")); 8439 if (uscmdp->uscsi_flags & USCSI_RQENABLE) { 8440 /* get the amount of data to copy into rqbuf */ 8441 int rqlen = SENSE_LENGTH - arqstat->sts_rqpkt_resid; 8442 rqlen = min(((int)uscmdp->uscsi_rqlen), rqlen); 8443 uscmdp->uscsi_rqresid = uscmdp->uscsi_rqlen - rqlen; 8444 uscmdp->uscsi_rqstatus = 8445 *((char *)&arqstat->sts_rqpkt_status); 8446 if (uscmdp->uscsi_rqbuf && uscmdp->uscsi_rqlen && 8447 rqlen != 0) { 8448 bcopy(&(arqstat->sts_sensedata), 8449 uscmdp->uscsi_rqbuf, rqlen); 8450 } 8451 mdi_pi_kstat_iosupdate(mp_uscmdp->pip, bp); 8452 VHCI_DEBUG(4, (CE_NOTE, NULL, 8453 "vhci_uscsi_iodone: ARQ " 8454 "uscsi_rqstatus=0x%x uscsi_rqresid=%d rqlen: %d " 8455 "xfer: %d rqpkt_resid: %d\n", 8456 uscmdp->uscsi_rqstatus, uscmdp->uscsi_rqresid, 8457 uscmdp->uscsi_rqlen, rqlen, 8458 arqstat->sts_rqpkt_resid)); 8459 } 8460 } else if (pkt->pkt_flags & FLAG_SENSING) { 8461 struct buf *rqbp; 8462 struct scsi_status *rqstatus; 8463 8464 rqstatus = (struct scsi_status *)pkt->pkt_scbp; 8465 /* a manual request sense was done - get the information */ 8466 if (uscmdp->uscsi_flags & USCSI_RQENABLE) { 8467 int rqlen = SENSE_LENGTH - pkt->pkt_resid; 8468 8469 rqbp = mp_uscmdp->rqbp; 8470 /* get the amount of data to copy into rqbuf */ 8471 rqlen = min(((int)uscmdp->uscsi_rqlen), rqlen); 8472 uscmdp->uscsi_rqresid = uscmdp->uscsi_rqlen - rqlen; 8473 uscmdp->uscsi_rqstatus = *((char *)rqstatus); 8474 if (uscmdp->uscsi_rqlen && uscmdp->uscsi_rqbuf) { 8475 bcopy(rqbp->b_un.b_addr, uscmdp->uscsi_rqbuf, 8476 rqlen); 8477 } 8478 MDI_PI_ERRSTAT(mp_uscmdp->pip, MDI_PI_TRANSERR); 8479 scsi_free_consistent_buf(rqbp); 8480 } 8481 VHCI_DEBUG(4, (CE_NOTE, NULL, "vhci_uscsi_iodone: FLAG_SENSING" 8482 "uscsi_rqstatus=0x%x uscsi_rqresid=%d\n", 8483 uscmdp->uscsi_rqstatus, uscmdp->uscsi_rqresid)); 8484 } else { 8485 struct scsi_status *status = 8486 (struct scsi_status *)pkt->pkt_scbp; 8487 /* 8488 * Command completed and we're not getting sense. Check for 8489 * errors and decide what to do next. 8490 */ 8491 VHCI_DEBUG(4, (CE_NOTE, NULL, 8492 "vhci_uscsi_iodone: command appears complete: reason: %x", 8493 pkt->pkt_reason)); 8494 if (status->sts_chk) { 8495 /* need to manually get the request sense */ 8496 if (vhci_uscsi_send_sense(pkt, mp_uscmdp) == 0) { 8497 scsi_destroy_pkt(pkt); 8498 return; 8499 } 8500 } else { 8501 VHCI_DEBUG(4, (CE_NOTE, NULL, 8502 "vhci_chk_err: appears complete")); 8503 err = 0; 8504 mdi_pi_kstat_iosupdate(mp_uscmdp->pip, bp); 8505 if (pkt->pkt_resid) { 8506 bp->b_resid += pkt->pkt_resid; 8507 } 8508 } 8509 } 8510 8511 if (err) { 8512 if (bp->b_resid == 0) 8513 bp->b_resid = bp->b_bcount; 8514 bioerror(bp, err); 8515 bp->b_flags |= B_ERROR; 8516 } 8517 8518 scsi_destroy_pkt(pkt); 8519 biodone(bp); 8520 8521 VHCI_DEBUG(4, (CE_WARN, NULL, "vhci_uscsi_iodone: exit")); 8522 } 8523 8524 /* 8525 * start routine for the mpapi uscsi command 8526 */ 8527 int 8528 vhci_uscsi_iostart(struct buf *bp) 8529 { 8530 struct scsi_pkt *pkt; 8531 struct uscsi_cmd *uscmdp; 8532 mp_uscsi_cmd_t *mp_uscmdp; 8533 int stat_size, rval; 8534 int retry = 0; 8535 8536 ASSERT(bp->b_private != NULL); 8537 8538 mp_uscmdp = (mp_uscsi_cmd_t *)bp->b_private; 8539 uscmdp = mp_uscmdp->uscmdp; 8540 if (uscmdp->uscsi_flags & USCSI_RQENABLE) { 8541 stat_size = SENSE_LENGTH; 8542 } else { 8543 stat_size = 1; 8544 } 8545 8546 pkt = scsi_init_pkt(mp_uscmdp->ap, NULL, bp, uscmdp->uscsi_cdblen, 8547 stat_size, 0, 0, SLEEP_FUNC, NULL); 8548 if (pkt == NULL) { 8549 VHCI_DEBUG(4, (CE_NOTE, NULL, 8550 "vhci_uscsi_iostart: rval: EINVAL")); 8551 bp->b_resid = bp->b_bcount; 8552 uscmdp->uscsi_resid = bp->b_bcount; 8553 bioerror(bp, EINVAL); 8554 biodone(bp); 8555 return (EINVAL); 8556 } 8557 8558 pkt->pkt_time = uscmdp->uscsi_timeout; 8559 bcopy(uscmdp->uscsi_cdb, pkt->pkt_cdbp, (size_t)uscmdp->uscsi_cdblen); 8560 pkt->pkt_comp = vhci_uscsi_iodone; 8561 pkt->pkt_private = mp_uscmdp; 8562 if (uscmdp->uscsi_flags & USCSI_SILENT) 8563 pkt->pkt_flags |= FLAG_SILENT; 8564 if (uscmdp->uscsi_flags & USCSI_ISOLATE) 8565 pkt->pkt_flags |= FLAG_ISOLATE; 8566 if (uscmdp->uscsi_flags & USCSI_DIAGNOSE) 8567 pkt->pkt_flags |= FLAG_DIAGNOSE; 8568 if (uscmdp->uscsi_flags & USCSI_RENEGOT) { 8569 pkt->pkt_flags |= FLAG_RENEGOTIATE_WIDE_SYNC; 8570 } 8571 VHCI_DEBUG(4, (CE_WARN, NULL, 8572 "vhci_uscsi_iostart: ap: %p pkt: %p pcdbp: %p uscmdp: %p" 8573 " ucdbp: %p pcdblen: %d bp: %p count: %ld pip: %p" 8574 " stat_size: %d", 8575 (void *)mp_uscmdp->ap, (void *)pkt, (void *)pkt->pkt_cdbp, 8576 (void *)uscmdp, (void *)uscmdp->uscsi_cdb, pkt->pkt_cdblen, 8577 (void *)bp, bp->b_bcount, (void *)mp_uscmdp->pip, stat_size)); 8578 8579 /* 8580 * NOTE: This code path is related to MPAPI uscsi(4I), so path 8581 * selection is not based on path_instance. 8582 */ 8583 if (scsi_pkt_allocated_correctly(pkt)) 8584 pkt->pkt_path_instance = 0; 8585 8586 while (((rval = scsi_transport(pkt)) == TRAN_BUSY) && 8587 retry < vhci_uscsi_retry_count) { 8588 delay(drv_usectohz(vhci_uscsi_delay)); 8589 retry++; 8590 } 8591 if (retry >= vhci_uscsi_retry_count) { 8592 VHCI_DEBUG(4, (CE_NOTE, NULL, 8593 "vhci_uscsi_iostart: tran_busy - retry: %d", retry)); 8594 } 8595 switch (rval) { 8596 case TRAN_ACCEPT: 8597 rval = 0; 8598 break; 8599 8600 default: 8601 VHCI_DEBUG(4, (CE_NOTE, NULL, 8602 "vhci_uscsi_iostart: rval: %d count: %ld res: %ld", 8603 rval, bp->b_bcount, bp->b_resid)); 8604 bp->b_resid = bp->b_bcount; 8605 uscmdp->uscsi_resid = bp->b_bcount; 8606 bioerror(bp, EIO); 8607 scsi_destroy_pkt(pkt); 8608 biodone(bp); 8609 rval = EIO; 8610 MDI_PI_ERRSTAT(mp_uscmdp->pip, MDI_PI_TRANSERR); 8611 break; 8612 } 8613 VHCI_DEBUG(4, (CE_NOTE, NULL, 8614 "vhci_uscsi_iostart: exit: rval: %d", rval)); 8615 return (rval); 8616 } 8617 8618 /* ARGSUSED */ 8619 static struct scsi_failover_ops * 8620 vhci_dev_fo(dev_info_t *vdip, struct scsi_device *psd, 8621 void **ctprivp, char **fo_namep) 8622 { 8623 struct scsi_failover_ops *sfo; 8624 char *sfo_name; 8625 char *override; 8626 struct scsi_failover *sf; 8627 8628 ASSERT(psd && psd->sd_inq); 8629 if ((psd == NULL) || (psd->sd_inq == NULL)) { 8630 VHCI_DEBUG(1, (CE_NOTE, NULL, 8631 "!vhci_dev_fo:return NULL no scsi_device or inquiry")); 8632 return (NULL); 8633 } 8634 8635 /* 8636 * Determine if device is supported under scsi_vhci, and select 8637 * failover module. 8638 * 8639 * See if there is a scsi_vhci.conf file override for this devices's 8640 * VID/PID. The following values can be returned: 8641 * 8642 * NULL If the NULL is returned then there is no scsi_vhci.conf 8643 * override. For NULL, we determine the failover_ops for 8644 * this device by checking the sfo_device_probe entry 8645 * point for each 'fops' module, in order. 8646 * 8647 * NOTE: Correct operation may depend on module ordering 8648 * of 'specific' (failover modules that are completely 8649 * VID/PID table based) to 'generic' (failover modules 8650 * that based on T10 standards like TPGS). Currently, 8651 * the value of 'ddi-forceload' in scsi_vhci.conf is used 8652 * to establish the module list and probe order. 8653 * 8654 * "NONE" If value "NONE" is returned then there is a 8655 * scsi_vhci.conf VID/PID override to indicate the device 8656 * should not be supported under scsi_vhci (even if there 8657 * is an 'fops' module supporting the device). 8658 * 8659 * "<other>" If another value is returned then that value is the 8660 * name of the 'fops' module that should be used. 8661 */ 8662 sfo = NULL; /* "NONE" */ 8663 override = scsi_get_device_type_string( 8664 "scsi-vhci-failover-override", vdip, psd); 8665 if (override == NULL) { 8666 /* NULL: default: select based on sfo_device_probe results */ 8667 for (sf = scsi_failover_table; sf->sf_mod; sf++) { 8668 if ((sf->sf_sfo == NULL) || 8669 sf->sf_sfo->sfo_device_probe(psd, psd->sd_inq, 8670 ctprivp) == SFO_DEVICE_PROBE_PHCI) 8671 continue; 8672 8673 /* found failover module, supported under scsi_vhci */ 8674 sfo = sf->sf_sfo; 8675 if (fo_namep && (*fo_namep == NULL)) { 8676 sfo_name = i_ddi_strdup(sfo->sfo_name, 8677 KM_SLEEP); 8678 *fo_namep = sfo_name; 8679 } 8680 break; 8681 } 8682 } else if (strcasecmp(override, "NONE")) { 8683 /* !"NONE": select based on driver.conf specified name */ 8684 for (sf = scsi_failover_table, sfo = NULL; sf->sf_mod; sf++) { 8685 if ((sf->sf_sfo == NULL) || 8686 (sf->sf_sfo->sfo_name == NULL) || 8687 strcmp(override, sf->sf_sfo->sfo_name)) 8688 continue; 8689 8690 /* 8691 * NOTE: If sfo_device_probe() has side-effects, 8692 * including setting *ctprivp, these are not going 8693 * to occur with override config. 8694 */ 8695 8696 /* found failover module, supported under scsi_vhci */ 8697 sfo = sf->sf_sfo; 8698 if (fo_namep && (*fo_namep == NULL)) { 8699 sfo_name = kmem_alloc(strlen("conf ") + 8700 strlen(sfo->sfo_name) + 1, KM_SLEEP); 8701 (void) sprintf(sfo_name, "conf %s", 8702 sfo->sfo_name); 8703 *fo_namep = sfo_name; 8704 } 8705 break; 8706 } 8707 } 8708 if (override) 8709 kmem_free(override, strlen(override) + 1); 8710 return (sfo); 8711 } 8712 8713 /* 8714 * Determine the device described by cinfo should be enumerated under 8715 * the vHCI or the pHCI - if there is a failover ops then device is 8716 * supported under vHCI. By agreement with SCSA cinfo is a pointer 8717 * to a scsi_device structure associated with a decorated pHCI probe node. 8718 */ 8719 /* ARGSUSED */ 8720 int 8721 vhci_is_dev_supported(dev_info_t *vdip, dev_info_t *pdip, void *cinfo) 8722 { 8723 struct scsi_device *psd = (struct scsi_device *)cinfo; 8724 8725 return (vhci_dev_fo(vdip, psd, NULL, NULL) ? MDI_SUCCESS : MDI_FAILURE); 8726 } 8727 8728 8729 #ifdef DEBUG 8730 extern struct scsi_key_strings scsi_cmds[]; 8731 8732 static char * 8733 vhci_print_scsi_cmd(char cmd) 8734 { 8735 char tmp[64]; 8736 char *cpnt; 8737 8738 cpnt = scsi_cmd_name(cmd, scsi_cmds, tmp); 8739 /* tmp goes out of scope on return and caller sees garbage */ 8740 if (cpnt == tmp) { 8741 cpnt = "Unknown Command"; 8742 } 8743 return (cpnt); 8744 } 8745 8746 extern uchar_t scsi_cdb_size[]; 8747 8748 static void 8749 vhci_print_cdb(dev_info_t *dip, uint_t level, char *title, uchar_t *cdb) 8750 { 8751 int len = scsi_cdb_size[CDB_GROUPID(cdb[0])]; 8752 char buf[256]; 8753 8754 if (level == CE_NOTE) { 8755 vhci_log(level, dip, "path cmd %s\n", 8756 vhci_print_scsi_cmd(*cdb)); 8757 return; 8758 } 8759 8760 (void) sprintf(buf, "%s for cmd(%s)", title, vhci_print_scsi_cmd(*cdb)); 8761 vhci_clean_print(dip, level, buf, cdb, len); 8762 } 8763 8764 static void 8765 vhci_clean_print(dev_info_t *dev, uint_t level, char *title, uchar_t *data, 8766 int len) 8767 { 8768 int i; 8769 int c; 8770 char *format; 8771 char buf[256]; 8772 uchar_t byte; 8773 8774 (void) sprintf(buf, "%s:\n", title); 8775 vhci_log(level, dev, "%s", buf); 8776 level = CE_CONT; 8777 for (i = 0; i < len; ) { 8778 buf[0] = 0; 8779 for (c = 0; c < 8 && i < len; c++, i++) { 8780 byte = (uchar_t)data[i]; 8781 if (byte < 0x10) 8782 format = "0x0%x "; 8783 else 8784 format = "0x%x "; 8785 (void) sprintf(&buf[(int)strlen(buf)], format, byte); 8786 } 8787 (void) sprintf(&buf[(int)strlen(buf)], "\n"); 8788 8789 vhci_log(level, dev, "%s\n", buf); 8790 } 8791 } 8792 #endif 8793 static void 8794 vhci_invalidate_mpapi_lu(struct scsi_vhci *vhci, scsi_vhci_lun_t *vlun) 8795 { 8796 char *svl_wwn; 8797 mpapi_item_list_t *ilist; 8798 mpapi_lu_data_t *ld; 8799 8800 if (vlun == NULL) { 8801 return; 8802 } else { 8803 svl_wwn = vlun->svl_lun_wwn; 8804 } 8805 8806 ilist = vhci->mp_priv->obj_hdr_list[MP_OBJECT_TYPE_MULTIPATH_LU]->head; 8807 8808 while (ilist != NULL) { 8809 ld = (mpapi_lu_data_t *)(ilist->item->idata); 8810 if ((ld != NULL) && (strncmp(ld->prop.name, svl_wwn, 8811 strlen(svl_wwn)) == 0)) { 8812 ld->valid = 0; 8813 VHCI_DEBUG(6, (CE_WARN, NULL, 8814 "vhci_invalidate_mpapi_lu: " 8815 "Invalidated LU(%s)", svl_wwn)); 8816 return; 8817 } 8818 ilist = ilist->next; 8819 } 8820 VHCI_DEBUG(6, (CE_WARN, NULL, "vhci_invalidate_mpapi_lu: " 8821 "Could not find LU(%s) to invalidate.", svl_wwn)); 8822 } 8823