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 /* 23 * Copyright 2008 Sun Microsystems, Inc. All rights reserved. 24 * Use is subject to license terms. 25 */ 26 27 /* 28 * SCSI SCSA-compliant and not-so-DDI-compliant Tape Driver 29 */ 30 31 #if defined(lint) && !defined(DEBUG) 32 #define DEBUG 1 33 #endif 34 35 #include <sys/modctl.h> 36 #include <sys/scsi/scsi.h> 37 #include <sys/mtio.h> 38 #include <sys/scsi/targets/stdef.h> 39 #include <sys/file.h> 40 #include <sys/kstat.h> 41 #include <sys/ddidmareq.h> 42 #include <sys/ddi.h> 43 #include <sys/sunddi.h> 44 #include <sys/byteorder.h> 45 46 #define IOSP KSTAT_IO_PTR(un->un_stats) 47 /* 48 * stats maintained only for reads/writes as commands 49 * like rewind etc skew the wait/busy times 50 */ 51 #define IS_RW(bp) ((bp)->b_bcount > 0) 52 #define ST_DO_KSTATS(bp, kstat_function) \ 53 if ((bp != un->un_sbufp) && un->un_stats && IS_RW(bp)) { \ 54 kstat_function(IOSP); \ 55 } 56 57 #define ST_DO_ERRSTATS(un, x) \ 58 if (un->un_errstats) { \ 59 struct st_errstats *stp; \ 60 stp = (struct st_errstats *)un->un_errstats->ks_data; \ 61 stp->x.value.ul++; \ 62 } 63 64 #define FILL_SCSI1_LUN(devp, pkt) \ 65 if ((devp)->sd_inq->inq_ansi == 0x1) { \ 66 int _lun; \ 67 _lun = ddi_prop_get_int(DDI_DEV_T_ANY, (devp)->sd_dev, \ 68 DDI_PROP_DONTPASS, SCSI_ADDR_PROP_LUN, 0); \ 69 if (_lun > 0) { \ 70 ((union scsi_cdb *)(pkt)->pkt_cdbp)->scc_lun = \ 71 _lun; \ 72 } \ 73 } 74 75 /* 76 * get an available contig mem header, cp. 77 * when big_enough is true, we will return NULL, if no big enough 78 * contig mem is found. 79 * when big_enough is false, we will try to find cp containing big 80 * enough contig mem. if not found, we will ruturn the last cp available. 81 * 82 * used by st_get_contig_mem() 83 */ 84 #define ST_GET_CONTIG_MEM_HEAD(un, cp, len, big_enough) { \ 85 struct contig_mem *tmp_cp = NULL; \ 86 for ((cp) = (un)->un_contig_mem; \ 87 (cp) != NULL; \ 88 tmp_cp = (cp), (cp) = (cp)->cm_next) { \ 89 if (((cp)->cm_len >= (len)) || \ 90 (!(big_enough) && ((cp)->cm_next == NULL))) { \ 91 if (tmp_cp == NULL) { \ 92 (un)->un_contig_mem = (cp)->cm_next; \ 93 } else { \ 94 tmp_cp->cm_next = (cp)->cm_next; \ 95 } \ 96 (cp)->cm_next = NULL; \ 97 (un)->un_contig_mem_available_num--; \ 98 break; \ 99 } \ 100 } \ 101 } 102 103 #define ST_NUM_MEMBERS(array) (sizeof (array) / sizeof (array[0])) 104 #define COPY_POS(dest, source) bcopy(source, dest, sizeof (tapepos_t)) 105 #define ISALNUM(byte) \ 106 (((byte) >= 'a' && (byte) <= 'z') || \ 107 ((byte) >= 'A' && (byte) <= 'Z') || \ 108 ((byte) >= '0' && (byte) <= '9')) 109 110 #define ONE_K 1024 111 112 #define MAX_SPACE_CNT(cnt) if (cnt >= 0) { \ 113 if (cnt > MIN(SP_CNT_MASK, INT32_MAX)) \ 114 return (EINVAL); \ 115 } else { \ 116 if (-(cnt) > MIN(SP_CNT_MASK, INT32_MAX)) \ 117 return (EINVAL); \ 118 } \ 119 120 /* 121 * Global External Data Definitions 122 */ 123 extern struct scsi_key_strings scsi_cmds[]; 124 extern uchar_t scsi_cdb_size[]; 125 126 /* 127 * Local Static Data 128 */ 129 static void *st_state; 130 static char *const st_label = "st"; 131 static volatile int st_recov_sz = sizeof (recov_info); 132 static const char mp_misconf[] = { 133 "St Tape is misconfigured, MPxIO enabled and " 134 "tape-command-recovery-disable set in st.conf\n" 135 }; 136 137 #ifdef __x86 138 /* 139 * We need to use below DMA attr to alloc physically contiguous 140 * memory to do I/O in big block size 141 */ 142 static ddi_dma_attr_t st_contig_mem_dma_attr = { 143 DMA_ATTR_V0, /* version number */ 144 0x0, /* lowest usable address */ 145 0xFFFFFFFFull, /* high DMA address range */ 146 0xFFFFFFFFull, /* DMA counter register */ 147 1, /* DMA address alignment */ 148 1, /* DMA burstsizes */ 149 1, /* min effective DMA size */ 150 0xFFFFFFFFull, /* max DMA xfer size */ 151 0xFFFFFFFFull, /* segment boundary */ 152 1, /* s/g list length */ 153 1, /* granularity of device */ 154 0 /* DMA transfer flags */ 155 }; 156 157 static ddi_device_acc_attr_t st_acc_attr = { 158 DDI_DEVICE_ATTR_V0, 159 DDI_NEVERSWAP_ACC, 160 DDI_STRICTORDER_ACC 161 }; 162 163 /* set limitation for the number of contig_mem */ 164 static int st_max_contig_mem_num = ST_MAX_CONTIG_MEM_NUM; 165 #endif 166 167 /* 168 * Tunable parameters 169 * 170 * DISCLAIMER 171 * ---------- 172 * These parameters are intended for use only in system testing; if you use 173 * them in production systems, you do so at your own risk. Altering any 174 * variable not listed below may cause unpredictable system behavior. 175 * 176 * st_check_media_time 177 * 178 * Three second state check 179 * 180 * st_allow_large_xfer 181 * 182 * Gated with ST_NO_RECSIZE_LIMIT 183 * 184 * 0 - Transfers larger than 64KB will not be allowed 185 * regardless of the setting of ST_NO_RECSIZE_LIMIT 186 * 1 - Transfers larger than 64KB will be allowed 187 * if ST_NO_RECSIZE_LIMIT is TRUE for the drive 188 * 189 * st_report_soft_errors_on_close 190 * 191 * Gated with ST_SOFT_ERROR_REPORTING 192 * 193 * 0 - Errors will not be reported on close regardless 194 * of the setting of ST_SOFT_ERROR_REPORTING 195 * 196 * 1 - Errors will be reported on close if 197 * ST_SOFT_ERROR_REPORTING is TRUE for the drive 198 */ 199 static int st_selection_retry_count = ST_SEL_RETRY_COUNT; 200 static int st_retry_count = ST_RETRY_COUNT; 201 202 static int st_io_time = ST_IO_TIME; 203 static int st_long_timeout_x = ST_LONG_TIMEOUT_X; 204 205 static int st_space_time = ST_SPACE_TIME; 206 static int st_long_space_time_x = ST_LONG_SPACE_TIME_X; 207 208 static int st_error_level = SCSI_ERR_RETRYABLE; 209 static int st_check_media_time = 3000000; /* 3 Second State Check */ 210 211 static int st_max_throttle = ST_MAX_THROTTLE; 212 213 static clock_t st_wait_cmds_complete = ST_WAIT_CMDS_COMPLETE; 214 215 static int st_allow_large_xfer = 1; 216 static int st_report_soft_errors_on_close = 1; 217 218 /* 219 * End of tunable parameters list 220 */ 221 222 223 224 /* 225 * Asynchronous I/O and persistent errors, refer to PSARC/1995/228 226 * 227 * Asynchronous I/O's main offering is that it is a non-blocking way to do 228 * reads and writes. The driver will queue up all the requests it gets and 229 * have them ready to transport to the HBA. Unfortunately, we cannot always 230 * just ship the I/O requests to the HBA, as there errors and exceptions 231 * that may happen when we don't want the HBA to continue. Therein comes 232 * the flush-on-errors capability. If the HBA supports it, then st will 233 * send in st_max_throttle I/O requests at the same time. 234 * 235 * Persistent errors : This was also reasonably simple. In the interrupt 236 * routines, if there was an error or exception (FM, LEOT, media error, 237 * transport error), the persistent error bits are set and shuts everything 238 * down, but setting the throttle to zero. If we hit and exception in the 239 * HBA, and flush-on-errors were set, we wait for all outstanding I/O's to 240 * come back (with CMD_ABORTED), then flush all bp's in the wait queue with 241 * the appropriate error, and this will preserve order. Of course, depending 242 * on the exception we have to show a zero read or write before we show 243 * errors back to the application. 244 */ 245 246 extern const int st_ndrivetypes; /* defined in st_conf.c */ 247 extern const struct st_drivetype st_drivetypes[]; 248 extern const char st_conf_version[]; 249 250 #ifdef STDEBUG 251 static int st_soft_error_report_debug = 0; 252 volatile int st_debug = 0; 253 static volatile dev_info_t *st_lastdev; 254 static kmutex_t st_debug_mutex; 255 #endif 256 257 #define ST_MT02_NAME "Emulex MT02 QIC-11/24 " 258 259 static const struct vid_drivetype { 260 char *vid; 261 char type; 262 } st_vid_dt[] = { 263 {"LTO-CVE ", MT_LTO}, 264 {"QUANTUM ", MT_ISDLT}, 265 {"SONY ", MT_ISAIT}, 266 {"STK ", MT_ISSTK9840} 267 }; 268 269 static const struct driver_minor_data { 270 char *name; 271 int minor; 272 } st_minor_data[] = { 273 /* 274 * The top 4 entries are for the default densities, 275 * don't alter their position. 276 */ 277 {"", 0}, 278 {"n", MT_NOREWIND}, 279 {"b", MT_BSD}, 280 {"bn", MT_NOREWIND | MT_BSD}, 281 {"l", MT_DENSITY1}, 282 {"m", MT_DENSITY2}, 283 {"h", MT_DENSITY3}, 284 {"c", MT_DENSITY4}, 285 {"u", MT_DENSITY4}, 286 {"ln", MT_DENSITY1 | MT_NOREWIND}, 287 {"mn", MT_DENSITY2 | MT_NOREWIND}, 288 {"hn", MT_DENSITY3 | MT_NOREWIND}, 289 {"cn", MT_DENSITY4 | MT_NOREWIND}, 290 {"un", MT_DENSITY4 | MT_NOREWIND}, 291 {"lb", MT_DENSITY1 | MT_BSD}, 292 {"mb", MT_DENSITY2 | MT_BSD}, 293 {"hb", MT_DENSITY3 | MT_BSD}, 294 {"cb", MT_DENSITY4 | MT_BSD}, 295 {"ub", MT_DENSITY4 | MT_BSD}, 296 {"lbn", MT_DENSITY1 | MT_NOREWIND | MT_BSD}, 297 {"mbn", MT_DENSITY2 | MT_NOREWIND | MT_BSD}, 298 {"hbn", MT_DENSITY3 | MT_NOREWIND | MT_BSD}, 299 {"cbn", MT_DENSITY4 | MT_NOREWIND | MT_BSD}, 300 {"ubn", MT_DENSITY4 | MT_NOREWIND | MT_BSD} 301 }; 302 303 /* strings used in many debug and warning messages */ 304 static const char wr_str[] = "write"; 305 static const char rd_str[] = "read"; 306 static const char wrg_str[] = "writing"; 307 static const char rdg_str[] = "reading"; 308 static const char *space_strs[] = { 309 "records", 310 "filemarks", 311 "sequential filemarks", 312 "eod", 313 "setmarks", 314 "sequential setmarks", 315 "Reserved", 316 "Reserved" 317 }; 318 static const char *load_strs[] = { 319 "unload", /* LD_UNLOAD 0 */ 320 "load", /* LD_LOAD 1 */ 321 "retension", /* LD_RETEN 2 */ 322 "load reten", /* LD_LOAD | LD_RETEN 3 */ 323 "eod", /* LD_EOT 4 */ 324 "load EOD", /* LD_LOAD | LD_EOT 5 */ 325 "reten EOD", /* LD_RETEN | LD_EOT 6 */ 326 "load reten EOD" /* LD_LOAD|LD_RETEN|LD_EOT 7 */ 327 "hold", /* LD_HOLD 8 */ 328 "load and hold" /* LD_LOAD | LD_HOLD 9 */ 329 }; 330 331 static const char *errstatenames[] = { 332 "COMMAND_DONE", 333 "COMMAND_DONE_ERROR", 334 "COMMAND_DONE_ERROR_RECOVERED", 335 "QUE_COMMAND", 336 "QUE_BUSY_COMMAND", 337 "QUE_SENSE", 338 "JUST_RETURN", 339 "COMMAND_DONE_EACCES", 340 "QUE_LAST_COMMAND", 341 "COMMAND_TIMEOUT", 342 "PATH_FAILED", 343 "DEVICE_RESET", 344 "DEVICE_TAMPER", 345 "ATTEMPT_RETRY" 346 }; 347 348 const char *bogusID = "Unknown Media ID"; 349 350 /* default density offsets in the table above */ 351 #define DEF_BLANK 0 352 #define DEF_NOREWIND 1 353 #define DEF_BSD 2 354 #define DEF_BSD_NR 3 355 356 /* Sense Key, ASC/ASCQ for which tape ejection is needed */ 357 358 static struct tape_failure_code { 359 uchar_t key; 360 uchar_t add_code; 361 uchar_t qual_code; 362 } st_tape_failure_code[] = { 363 { KEY_HARDWARE_ERROR, 0x15, 0x01}, 364 { KEY_HARDWARE_ERROR, 0x44, 0x00}, 365 { KEY_HARDWARE_ERROR, 0x53, 0x00}, 366 { KEY_HARDWARE_ERROR, 0x53, 0x01}, 367 { KEY_NOT_READY, 0x53, 0x00}, 368 { 0xff} 369 }; 370 371 /* clean bit position and mask */ 372 373 static struct cln_bit_position { 374 ushort_t cln_bit_byte; 375 uchar_t cln_bit_mask; 376 } st_cln_bit_position[] = { 377 { 21, 0x08}, 378 { 70, 0xc0}, 379 { 18, 0x81} /* 80 bit indicates in bit mode, 1 bit clean light is on */ 380 }; 381 382 /* 383 * architecture dependent allocation restrictions. For x86, we'll set 384 * dma_attr_addr_hi to st_max_phys_addr and dma_attr_sgllen to 385 * st_sgl_size during _init(). 386 */ 387 #if defined(__sparc) 388 static ddi_dma_attr_t st_alloc_attr = { 389 DMA_ATTR_V0, /* version number */ 390 0x0, /* lowest usable address */ 391 0xFFFFFFFFull, /* high DMA address range */ 392 0xFFFFFFFFull, /* DMA counter register */ 393 1, /* DMA address alignment */ 394 1, /* DMA burstsizes */ 395 1, /* min effective DMA size */ 396 0xFFFFFFFFull, /* max DMA xfer size */ 397 0xFFFFFFFFull, /* segment boundary */ 398 1, /* s/g list length */ 399 512, /* granularity of device */ 400 0 /* DMA transfer flags */ 401 }; 402 #elif defined(__x86) 403 static ddi_dma_attr_t st_alloc_attr = { 404 DMA_ATTR_V0, /* version number */ 405 0x0, /* lowest usable address */ 406 0x0, /* high DMA address range [set in _init()] */ 407 0xFFFFull, /* DMA counter register */ 408 512, /* DMA address alignment */ 409 1, /* DMA burstsizes */ 410 1, /* min effective DMA size */ 411 0xFFFFFFFFull, /* max DMA xfer size */ 412 0xFFFFFFFFull, /* segment boundary */ 413 0, /* s/g list length */ 414 512, /* granularity of device [set in _init()] */ 415 0 /* DMA transfer flags */ 416 }; 417 uint64_t st_max_phys_addr = 0xFFFFFFFFull; 418 int st_sgl_size = 0xF; 419 420 #endif 421 422 /* 423 * Configuration Data: 424 * 425 * Device driver ops vector 426 */ 427 static int st_aread(dev_t dev, struct aio_req *aio, cred_t *cred_p); 428 static int st_awrite(dev_t dev, struct aio_req *aio, cred_t *cred_p); 429 static int st_read(dev_t dev, struct uio *uio_p, cred_t *cred_p); 430 static int st_write(dev_t dev, struct uio *uio_p, cred_t *cred_p); 431 static int st_open(dev_t *devp, int flag, int otyp, cred_t *cred_p); 432 static int st_close(dev_t dev, int flag, int otyp, cred_t *cred_p); 433 static int st_strategy(struct buf *bp); 434 static int st_queued_strategy(buf_t *bp); 435 static int st_ioctl(dev_t dev, int cmd, intptr_t arg, int flag, 436 cred_t *cred_p, int *rval_p); 437 extern int nulldev(), nodev(); 438 439 static struct cb_ops st_cb_ops = { 440 st_open, /* open */ 441 st_close, /* close */ 442 st_queued_strategy, /* strategy Not Block device but async checks */ 443 nodev, /* print */ 444 nodev, /* dump */ 445 st_read, /* read */ 446 st_write, /* write */ 447 st_ioctl, /* ioctl */ 448 nodev, /* devmap */ 449 nodev, /* mmap */ 450 nodev, /* segmap */ 451 nochpoll, /* poll */ 452 ddi_prop_op, /* cb_prop_op */ 453 0, /* streamtab */ 454 D_64BIT | D_MP | D_NEW | D_HOTPLUG | 455 D_OPEN_RETURNS_EINTR, /* cb_flag */ 456 CB_REV, /* cb_rev */ 457 st_aread, /* async I/O read entry point */ 458 st_awrite /* async I/O write entry point */ 459 460 }; 461 462 static int st_info(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, 463 void **result); 464 static int st_probe(dev_info_t *dev); 465 static int st_attach(dev_info_t *dev, ddi_attach_cmd_t cmd); 466 static int st_detach(dev_info_t *dev, ddi_detach_cmd_t cmd); 467 468 static struct dev_ops st_ops = { 469 DEVO_REV, /* devo_rev, */ 470 0, /* refcnt */ 471 st_info, /* info */ 472 nulldev, /* identify */ 473 st_probe, /* probe */ 474 st_attach, /* attach */ 475 st_detach, /* detach */ 476 nodev, /* reset */ 477 &st_cb_ops, /* driver operations */ 478 (struct bus_ops *)0, /* bus operations */ 479 nulldev, /* power */ 480 ddi_quiesce_not_needed, /* devo_quiesce */ 481 }; 482 483 /* 484 * Local Function Declarations 485 */ 486 static char *st_print_scsi_cmd(char cmd); 487 static void st_print_cdb(dev_info_t *dip, char *label, uint_t level, 488 char *title, char *cdb); 489 static void st_clean_print(dev_info_t *dev, char *label, uint_t level, 490 char *title, char *data, int len); 491 static int st_doattach(struct scsi_device *devp, int (*canwait)()); 492 static void st_known_tape_type(struct scsi_tape *un); 493 static int st_get_conf_from_st_dot_conf(struct scsi_tape *, char *, 494 struct st_drivetype *); 495 static int st_get_conf_from_st_conf_dot_c(struct scsi_tape *, char *, 496 struct st_drivetype *); 497 static int st_get_conf_from_tape_drive(struct scsi_tape *, char *, 498 struct st_drivetype *); 499 static int st_get_densities_from_tape_drive(struct scsi_tape *, 500 struct st_drivetype *); 501 static int st_get_timeout_values_from_tape_drive(struct scsi_tape *, 502 struct st_drivetype *); 503 static int st_get_timeouts_value(struct scsi_tape *, uchar_t, ushort_t *, 504 ushort_t); 505 static int st_get_default_conf(struct scsi_tape *, char *, 506 struct st_drivetype *); 507 static int st_rw(dev_t dev, struct uio *uio, int flag); 508 static int st_arw(dev_t dev, struct aio_req *aio, int flag); 509 static int st_find_eod(struct scsi_tape *un); 510 static int st_check_density_or_wfm(dev_t dev, int wfm, int mode, int stepflag); 511 static int st_uscsi_cmd(struct scsi_tape *un, struct uscsi_cmd *, int flag); 512 static int st_mtioctop(struct scsi_tape *un, intptr_t arg, int flag); 513 static int st_mtiocltop(struct scsi_tape *un, intptr_t arg, int flag); 514 static int st_do_mtioctop(struct scsi_tape *un, struct mtlop *mtop); 515 static void st_start(struct scsi_tape *un); 516 static int st_handle_start_busy(struct scsi_tape *un, struct buf *bp, 517 clock_t timeout_interval, int queued); 518 static int st_handle_intr_busy(struct scsi_tape *un, struct buf *bp, 519 clock_t timeout_interval); 520 static int st_handle_intr_retry_lcmd(struct scsi_tape *un, struct buf *bp); 521 static void st_done_and_mutex_exit(struct scsi_tape *un, struct buf *bp); 522 static void st_init(struct scsi_tape *un); 523 static void st_make_cmd(struct scsi_tape *un, struct buf *bp, 524 int (*func)(caddr_t)); 525 static void st_make_uscsi_cmd(struct scsi_tape *, struct uscsi_cmd *, 526 struct buf *bp, int (*func)(caddr_t)); 527 static void st_intr(struct scsi_pkt *pkt); 528 static void st_set_state(struct scsi_tape *un, buf_t *bp); 529 static void st_test_append(struct buf *bp); 530 static int st_runout(caddr_t); 531 static int st_cmd(struct scsi_tape *un, int com, int64_t count, int wait); 532 static int st_setup_cmd(struct scsi_tape *un, buf_t *bp, int com, 533 int64_t count); 534 static int st_set_compression(struct scsi_tape *un); 535 static int st_write_fm(dev_t dev, int wfm); 536 static int st_determine_generic(struct scsi_tape *un); 537 static int st_determine_density(struct scsi_tape *un, int rw); 538 static int st_get_density(struct scsi_tape *un); 539 static int st_set_density(struct scsi_tape *un); 540 static int st_loadtape(struct scsi_tape *un); 541 static int st_modesense(struct scsi_tape *un); 542 static int st_modeselect(struct scsi_tape *un); 543 static errstate st_handle_incomplete(struct scsi_tape *un, struct buf *bp); 544 static int st_wrongtapetype(struct scsi_tape *un); 545 static errstate st_check_error(struct scsi_tape *un, struct scsi_pkt *pkt); 546 static errstate st_handle_sense(struct scsi_tape *un, struct buf *bp, 547 tapepos_t *); 548 static errstate st_handle_autosense(struct scsi_tape *un, struct buf *bp, 549 tapepos_t *); 550 static int st_get_error_entry(struct scsi_tape *un, intptr_t arg, int flag); 551 static void st_update_error_stack(struct scsi_tape *un, struct scsi_pkt *pkt, 552 struct scsi_arq_status *cmd); 553 static void st_empty_error_stack(struct scsi_tape *un); 554 static errstate st_decode_sense(struct scsi_tape *un, struct buf *bp, int amt, 555 struct scsi_arq_status *, tapepos_t *); 556 static int st_report_soft_errors(dev_t dev, int flag); 557 static void st_delayed_cv_broadcast(void *arg); 558 static int st_check_media(dev_t dev, enum mtio_state state); 559 static int st_media_watch_cb(caddr_t arg, struct scsi_watch_result *resultp); 560 static void st_intr_restart(void *arg); 561 static void st_start_restart(void *arg); 562 static int st_gen_mode_sense(struct scsi_tape *un, ubufunc_t ubf, int page, 563 struct seq_mode *page_data, int page_size); 564 static int st_change_block_size(struct scsi_tape *un, uint32_t nblksz); 565 static int st_gen_mode_select(struct scsi_tape *un, ubufunc_t ubf, 566 struct seq_mode *page_data, int page_size); 567 static int st_read_block_limits(struct scsi_tape *un, 568 struct read_blklim *read_blk); 569 static int st_report_density_support(struct scsi_tape *un, 570 uchar_t *density_data, size_t buflen); 571 static int st_report_supported_operation(struct scsi_tape *un, 572 uchar_t *oper_data, uchar_t option_code, ushort_t service_action); 573 static int st_tape_init(struct scsi_tape *un); 574 static void st_flush(struct scsi_tape *un); 575 static void st_set_pe_errno(struct scsi_tape *un); 576 static void st_hba_unflush(struct scsi_tape *un); 577 static void st_turn_pe_on(struct scsi_tape *un); 578 static void st_turn_pe_off(struct scsi_tape *un); 579 static void st_set_pe_flag(struct scsi_tape *un); 580 static void st_clear_pe(struct scsi_tape *un); 581 static void st_wait_for_io(struct scsi_tape *un); 582 static int st_set_devconfig_page(struct scsi_tape *un, int compression_on); 583 static int st_set_datacomp_page(struct scsi_tape *un, int compression_on); 584 static int st_reserve_release(struct scsi_tape *un, int command, ubufunc_t ubf); 585 static int st_check_cdb_for_need_to_reserve(struct scsi_tape *un, uchar_t *cdb); 586 static int st_check_cmd_for_need_to_reserve(struct scsi_tape *un, uchar_t cmd, 587 int count); 588 static int st_take_ownership(struct scsi_tape *un, ubufunc_t ubf); 589 static int st_check_asc_ascq(struct scsi_tape *un); 590 static int st_check_clean_bit(struct scsi_tape *un); 591 static int st_check_alert_flags(struct scsi_tape *un); 592 static int st_check_sequential_clean_bit(struct scsi_tape *un); 593 static int st_check_sense_clean_bit(struct scsi_tape *un); 594 static int st_clear_unit_attentions(dev_t dev_instance, int max_trys); 595 static void st_calculate_timeouts(struct scsi_tape *un); 596 static writablity st_is_drive_worm(struct scsi_tape *un); 597 static int st_read_attributes(struct scsi_tape *un, uint16_t attribute, 598 void *buf, size_t size, ubufunc_t bufunc); 599 static int st_get_special_inquiry(struct scsi_tape *un, uchar_t size, 600 caddr_t dest, uchar_t page); 601 static int st_update_block_pos(struct scsi_tape *un, bufunc_t bf, 602 int post_space); 603 static int st_interpret_read_pos(struct scsi_tape const *un, tapepos_t *dest, 604 read_p_types type, size_t data_sz, const caddr_t responce, int post_space); 605 static int st_get_read_pos(struct scsi_tape *un, buf_t *bp); 606 static int st_logical_block_locate(struct scsi_tape *un, ubufunc_t ubf, 607 tapepos_t *pos, uint64_t lblk, uchar_t partition); 608 static int st_mtfsf_ioctl(struct scsi_tape *un, int64_t files); 609 static int st_mtfsr_ioctl(struct scsi_tape *un, int64_t count); 610 static int st_mtbsf_ioctl(struct scsi_tape *un, int64_t files); 611 static int st_mtnbsf_ioctl(struct scsi_tape *un, int64_t count); 612 static int st_mtbsr_ioctl(struct scsi_tape *un, int64_t num); 613 static int st_mtfsfm_ioctl(struct scsi_tape *un, int64_t cnt); 614 static int st_mtbsfm_ioctl(struct scsi_tape *un, int64_t cnt); 615 static int st_backward_space_files(struct scsi_tape *un, int64_t count, 616 int infront); 617 static int st_forward_space_files(struct scsi_tape *un, int64_t files); 618 static int st_scenic_route_to_begining_of_file(struct scsi_tape *un, 619 int32_t fileno); 620 static int st_space_to_begining_of_file(struct scsi_tape *un); 621 static int st_space_records(struct scsi_tape *un, int64_t records); 622 static int st_get_media_identification(struct scsi_tape *un, ubufunc_t bufunc); 623 static errstate st_command_recovery(struct scsi_tape *un, struct scsi_pkt *pkt, 624 errstate onentry); 625 static void st_recover(void *arg); 626 static void st_recov_cb(struct scsi_pkt *pkt); 627 static int st_rcmd(struct scsi_tape *un, int com, int64_t count, int wait); 628 static int st_uscsi_rcmd(struct scsi_tape *un, struct uscsi_cmd *ucmd, 629 int flag); 630 static void st_add_recovery_info_to_pkt(struct scsi_tape *un, buf_t *bp, 631 struct scsi_pkt *cmd); 632 static int st_check_mode_for_change(struct scsi_tape *un, ubufunc_t ubf); 633 static int st_test_path_to_device(struct scsi_tape *un); 634 static int st_recovery_read_pos(struct scsi_tape *un, read_p_types type, 635 read_pos_data_t *raw); 636 static int st_recovery_get_position(struct scsi_tape *un, tapepos_t *read, 637 read_pos_data_t *raw); 638 static int st_compare_expected_position(struct scsi_tape *un, st_err_info *ei, 639 cmd_attribute const * cmd_att, tapepos_t *read); 640 static errstate st_recover_reissue_pkt(struct scsi_tape *us, 641 struct scsi_pkt *pkt); 642 static int st_transport(struct scsi_tape *un, struct scsi_pkt *pkt); 643 static buf_t *st_remove_from_queue(buf_t **head, buf_t **tail, buf_t *bp); 644 static void st_add_to_queue(buf_t **head, buf_t **tail, buf_t *end, buf_t *bp); 645 static int st_reset(struct scsi_tape *un, int reset_type); 646 static void st_reset_notification(caddr_t arg); 647 static const cmd_attribute *st_lookup_cmd_attribute(unsigned char cmd); 648 649 #ifdef __x86 650 /* 651 * routines for I/O in big block size 652 */ 653 static void st_release_contig_mem(struct scsi_tape *un, struct contig_mem *cp); 654 static struct contig_mem *st_get_contig_mem(struct scsi_tape *un, size_t len, 655 int alloc_flags); 656 static int st_bigblk_xfer_done(struct buf *bp); 657 static struct buf *st_get_bigblk_bp(struct buf *bp); 658 #endif 659 static void st_print_position(dev_info_t *dev, char *label, uint_t level, 660 const char *comment, tapepos_t *pos); 661 662 /* 663 * error statistics create/update functions 664 */ 665 static int st_create_errstats(struct scsi_tape *, int); 666 static int st_validate_tapemarks(struct scsi_tape *un, ubufunc_t ubf, 667 tapepos_t *pos); 668 669 #ifdef STDEBUG 670 static void st_debug_cmds(struct scsi_tape *un, int com, int count, int wait); 671 #endif /* STDEBUG */ 672 static char *st_dev_name(dev_t dev); 673 674 #if !defined(lint) 675 _NOTE(SCHEME_PROTECTS_DATA("unique per pkt", 676 scsi_pkt buf uio scsi_cdb uscsi_cmd)) 677 _NOTE(SCHEME_PROTECTS_DATA("unique per pkt", scsi_extended_sense scsi_status)) 678 _NOTE(SCHEME_PROTECTS_DATA("unique per pkt", recov_info)) 679 _NOTE(SCHEME_PROTECTS_DATA("stable data", scsi_device)) 680 _NOTE(DATA_READABLE_WITHOUT_LOCK(st_drivetype scsi_address)) 681 #endif 682 683 /* 684 * autoconfiguration routines. 685 */ 686 char _depends_on[] = "misc/scsi"; 687 688 static struct modldrv modldrv = { 689 &mod_driverops, /* Type of module. This one is a driver */ 690 "SCSI tape Driver", /* Name of the module. */ 691 &st_ops /* driver ops */ 692 }; 693 694 static struct modlinkage modlinkage = { 695 MODREV_1, &modldrv, NULL 696 }; 697 698 /* 699 * Notes on Post Reset Behavior in the tape driver: 700 * 701 * When the tape drive is opened, the driver attempts to make sure that 702 * the tape head is positioned exactly where it was left when it was last 703 * closed provided the medium is not changed. If the tape drive is 704 * opened in O_NDELAY mode, the repositioning (if necessary for any loss 705 * of position due to reset) will happen when the first tape operation or 706 * I/O occurs. The repositioning (if required) may not be possible under 707 * certain situations such as when the device firmware not able to report 708 * the medium change in the REQUEST SENSE data because of a reset or a 709 * misbehaving bus not allowing the reposition to happen. In such 710 * extraordinary situations, where the driver fails to position the head 711 * at its original position, it will fail the open the first time, to 712 * save the applications from overwriting the data. All further attempts 713 * to open the tape device will result in the driver attempting to load 714 * the tape at BOT (beginning of tape). Also a warning message to 715 * indicate that further attempts to open the tape device may result in 716 * the tape being loaded at BOT will be printed on the console. If the 717 * tape device is opened in O_NDELAY mode, failure to restore the 718 * original tape head position, will result in the failure of the first 719 * tape operation or I/O, Further, the driver will invalidate its 720 * internal tape position which will necessitate the applications to 721 * validate the position by using either a tape positioning ioctl (such 722 * as MTREW) or closing and reopening the tape device. 723 * 724 */ 725 726 int 727 _init(void) 728 { 729 int e; 730 731 if (((e = ddi_soft_state_init(&st_state, 732 sizeof (struct scsi_tape), ST_MAXUNIT)) != 0)) { 733 return (e); 734 } 735 736 if ((e = mod_install(&modlinkage)) != 0) { 737 ddi_soft_state_fini(&st_state); 738 } else { 739 #ifdef STDEBUG 740 mutex_init(&st_debug_mutex, NULL, MUTEX_DRIVER, NULL); 741 #endif 742 743 #if defined(__x86) 744 /* set the max physical address for iob allocs on x86 */ 745 st_alloc_attr.dma_attr_addr_hi = st_max_phys_addr; 746 747 /* 748 * set the sgllen for iob allocs on x86. If this is set less 749 * than the number of pages the buffer will take 750 * (taking into account alignment), it would force the 751 * allocator to try and allocate contiguous pages. 752 */ 753 st_alloc_attr.dma_attr_sgllen = st_sgl_size; 754 #endif 755 } 756 757 return (e); 758 } 759 760 int 761 _fini(void) 762 { 763 int e; 764 765 if ((e = mod_remove(&modlinkage)) != 0) { 766 return (e); 767 } 768 769 #ifdef STDEBUG 770 mutex_destroy(&st_debug_mutex); 771 #endif 772 773 ddi_soft_state_fini(&st_state); 774 775 return (e); 776 } 777 778 int 779 _info(struct modinfo *modinfop) 780 { 781 return (mod_info(&modlinkage, modinfop)); 782 } 783 784 785 static int 786 st_probe(dev_info_t *devi) 787 { 788 int instance; 789 struct scsi_device *devp; 790 int rval; 791 792 #if !defined(__sparc) 793 char *tape_prop; 794 int tape_prop_len; 795 #endif 796 797 ST_ENTR(devi, st_probe); 798 799 /* If self identifying device */ 800 if (ddi_dev_is_sid(devi) == DDI_SUCCESS) { 801 return (DDI_PROBE_DONTCARE); 802 } 803 804 #if !defined(__sparc) 805 /* 806 * Since some x86 HBAs have devnodes that look like SCSI as 807 * far as we can tell but aren't really SCSI (DADK, like mlx) 808 * we check for the presence of the "tape" property. 809 */ 810 if (ddi_prop_op(DDI_DEV_T_NONE, devi, PROP_LEN_AND_VAL_ALLOC, 811 DDI_PROP_CANSLEEP, "tape", 812 (caddr_t)&tape_prop, &tape_prop_len) != DDI_PROP_SUCCESS) { 813 return (DDI_PROBE_FAILURE); 814 } 815 if (strncmp(tape_prop, "sctp", tape_prop_len) != 0) { 816 kmem_free(tape_prop, tape_prop_len); 817 return (DDI_PROBE_FAILURE); 818 } 819 kmem_free(tape_prop, tape_prop_len); 820 #endif 821 822 devp = ddi_get_driver_private(devi); 823 instance = ddi_get_instance(devi); 824 825 if (ddi_get_soft_state(st_state, instance) != NULL) { 826 return (DDI_PROBE_PARTIAL); 827 } 828 829 830 /* 831 * Turn around and call probe routine to see whether 832 * we actually have a tape at this SCSI nexus. 833 */ 834 if (scsi_probe(devp, NULL_FUNC) == SCSIPROBE_EXISTS) { 835 836 /* 837 * In checking the whole inq_dtype byte we are looking at both 838 * the Peripheral Qualifier and the Peripheral Device Type. 839 * For this driver we are only interested in sequential devices 840 * that are connected or capable if connecting to this logical 841 * unit. 842 */ 843 if (devp->sd_inq->inq_dtype == 844 (DTYPE_SEQUENTIAL | DPQ_POSSIBLE)) { 845 ST_DEBUG6(devi, st_label, SCSI_DEBUG, 846 "probe exists\n"); 847 rval = DDI_PROBE_SUCCESS; 848 } else { 849 rval = DDI_PROBE_FAILURE; 850 } 851 } else { 852 ST_DEBUG6(devi, st_label, SCSI_DEBUG, 853 "probe failure: nothing there\n"); 854 rval = DDI_PROBE_FAILURE; 855 } 856 scsi_unprobe(devp); 857 return (rval); 858 } 859 860 static int 861 st_attach(dev_info_t *devi, ddi_attach_cmd_t cmd) 862 { 863 int instance; 864 int wide; 865 int dev_instance; 866 int ret_status; 867 struct scsi_device *devp; 868 int node_ix; 869 struct scsi_tape *un; 870 871 ST_ENTR(devi, st_attach); 872 873 devp = ddi_get_driver_private(devi); 874 instance = ddi_get_instance(devi); 875 876 switch (cmd) { 877 case DDI_ATTACH: 878 if (ddi_getprop(DDI_DEV_T_ANY, devi, DDI_PROP_DONTPASS, 879 "tape-command-recovery-disable", 0) != 0) { 880 st_recov_sz = sizeof (pkt_info); 881 } 882 if (st_doattach(devp, SLEEP_FUNC) == DDI_FAILURE) { 883 return (DDI_FAILURE); 884 } 885 break; 886 case DDI_RESUME: 887 /* 888 * Suspend/Resume 889 * 890 * When the driver suspended, there might be 891 * outstanding cmds and therefore we need to 892 * reset the suspended flag and resume the scsi 893 * watch thread and restart commands and timeouts 894 */ 895 896 if (!(un = ddi_get_soft_state(st_state, instance))) { 897 return (DDI_FAILURE); 898 } 899 dev_instance = ((un->un_dev == 0) ? MTMINOR(instance) : 900 un->un_dev); 901 902 mutex_enter(ST_MUTEX); 903 904 un->un_throttle = un->un_max_throttle; 905 un->un_tids_at_suspend = 0; 906 un->un_pwr_mgmt = ST_PWR_NORMAL; 907 908 if (un->un_swr_token) { 909 scsi_watch_resume(un->un_swr_token); 910 } 911 912 /* 913 * Restart timeouts 914 */ 915 if ((un->un_tids_at_suspend & ST_DELAY_TID) != 0) { 916 mutex_exit(ST_MUTEX); 917 un->un_delay_tid = timeout( 918 st_delayed_cv_broadcast, un, 919 drv_usectohz((clock_t) 920 MEDIA_ACCESS_DELAY)); 921 mutex_enter(ST_MUTEX); 922 } 923 924 if (un->un_tids_at_suspend & ST_HIB_TID) { 925 mutex_exit(ST_MUTEX); 926 un->un_hib_tid = timeout(st_intr_restart, un, 927 ST_STATUS_BUSY_TIMEOUT); 928 mutex_enter(ST_MUTEX); 929 } 930 931 ret_status = st_clear_unit_attentions(dev_instance, 5); 932 933 /* 934 * now check if we need to restore the tape position 935 */ 936 if ((un->un_suspend_pos.pmode != invalid) && 937 ((un->un_suspend_pos.fileno > 0) || 938 (un->un_suspend_pos.blkno > 0)) || 939 (un->un_suspend_pos.lgclblkno > 0)) { 940 if (ret_status != 0) { 941 /* 942 * tape didn't get good TUR 943 * just print out error messages 944 */ 945 scsi_log(ST_DEVINFO, st_label, CE_WARN, 946 "st_attach-RESUME: tape failure " 947 " tape position will be lost"); 948 } else { 949 /* this prints errors */ 950 (void) st_validate_tapemarks(un, 951 st_uscsi_cmd, &un->un_suspend_pos); 952 } 953 /* 954 * there are no retries, if there is an error 955 * we don't know if the tape has changed 956 */ 957 un->un_suspend_pos.pmode = invalid; 958 } 959 960 /* now we are ready to start up any queued I/Os */ 961 if (un->un_ncmds || un->un_quef) { 962 st_start(un); 963 } 964 965 cv_broadcast(&un->un_suspend_cv); 966 mutex_exit(ST_MUTEX); 967 return (DDI_SUCCESS); 968 969 default: 970 return (DDI_FAILURE); 971 } 972 973 un = ddi_get_soft_state(st_state, instance); 974 975 ST_DEBUG(devi, st_label, SCSI_DEBUG, 976 "st_attach: instance=%x\n", instance); 977 978 /* 979 * Add a zero-length attribute to tell the world we support 980 * kernel ioctls (for layered drivers) 981 */ 982 (void) ddi_prop_create(DDI_DEV_T_NONE, devi, DDI_PROP_CANSLEEP, 983 DDI_KERNEL_IOCTL, NULL, 0); 984 985 ddi_report_dev((dev_info_t *)devi); 986 987 /* 988 * If it's a SCSI-2 tape drive which supports wide, 989 * tell the host adapter to use wide. 990 */ 991 wide = ((devp->sd_inq->inq_rdf == RDF_SCSI2) && 992 (devp->sd_inq->inq_wbus16 || devp->sd_inq->inq_wbus32)) ? 1 : 0; 993 994 if (scsi_ifsetcap(ROUTE, "wide-xfer", wide, 1) == 1) { 995 ST_DEBUG(devi, st_label, SCSI_DEBUG, 996 "Wide Transfer %s\n", wide ? "enabled" : "disabled"); 997 } 998 999 /* 1000 * enable autorequest sense; keep the rq packet around in case 1001 * the autorequest sense fails because of a busy condition 1002 * do a getcap first in case the capability is not variable 1003 */ 1004 if (scsi_ifgetcap(ROUTE, "auto-rqsense", 1) == 1) { 1005 un->un_arq_enabled = 1; 1006 } else { 1007 un->un_arq_enabled = 1008 ((scsi_ifsetcap(ROUTE, "auto-rqsense", 1, 1) == 1) ? 1 : 0); 1009 } 1010 1011 ST_DEBUG(devi, st_label, SCSI_DEBUG, "auto request sense %s\n", 1012 (un->un_arq_enabled ? "enabled" : "disabled")); 1013 1014 un->un_untagged_qing = 1015 (scsi_ifgetcap(ROUTE, "untagged-qing", 0) == 1); 1016 1017 /* 1018 * XXX - This is just for 2.6. to tell users that write buffering 1019 * has gone away. 1020 */ 1021 if (un->un_arq_enabled && un->un_untagged_qing) { 1022 if (ddi_getprop(DDI_DEV_T_ANY, devi, DDI_PROP_DONTPASS, 1023 "tape-driver-buffering", 0) != 0) { 1024 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 1025 "Write Data Buffering has been depricated. Your " 1026 "applications should continue to work normally.\n" 1027 " But, they should ported to use Asynchronous " 1028 " I/O\n" 1029 " For more information, read about " 1030 " tape-driver-buffering " 1031 "property in the st(7d) man page\n"); 1032 } 1033 } 1034 1035 un->un_max_throttle = un->un_throttle = un->un_last_throttle = 1; 1036 un->un_flush_on_errors = 0; 1037 un->un_mkr_pkt = (struct scsi_pkt *)NULL; 1038 1039 ST_DEBUG(devi, st_label, SCSI_DEBUG, 1040 "throttle=%x, max_throttle = %x\n", 1041 un->un_throttle, un->un_max_throttle); 1042 1043 /* initialize persistent errors to nil */ 1044 un->un_persistence = 0; 1045 un->un_persist_errors = 0; 1046 1047 /* 1048 * Get dma-max from HBA driver. If it is not defined, use 64k 1049 */ 1050 un->un_maxdma = scsi_ifgetcap(&devp->sd_address, "dma-max", 1); 1051 if (un->un_maxdma == -1) { 1052 ST_DEBUG(devi, st_label, SCSI_DEBUG, 1053 "Received a value that looked like -1. Using 64k maxdma"); 1054 un->un_maxdma = (64 * ONE_K); 1055 } 1056 1057 #ifdef __x86 1058 /* 1059 * for x86, the device may be able to DMA more than the system will 1060 * allow under some circumstances. We need account for both the HBA's 1061 * and system's contraints. 1062 * 1063 * Get the maximum DMA under worse case conditions. e.g. looking at the 1064 * device constraints, the max copy buffer size, and the worse case 1065 * fragmentation. NOTE: this may differ from dma-max since dma-max 1066 * doesn't take the worse case framentation into account. 1067 * 1068 * e.g. a device may be able to DMA 16MBytes, but can only DMA 1MByte 1069 * if none of the pages are contiguous. Keeping track of both of these 1070 * values allows us to support larger tape block sizes on some devices. 1071 */ 1072 un->un_maxdma_arch = scsi_ifgetcap(&devp->sd_address, "dma-max-arch", 1073 1); 1074 1075 /* 1076 * If the dma-max-arch capability is not implemented, or the value 1077 * comes back higher than what was reported in dma-max, use dma-max. 1078 */ 1079 if ((un->un_maxdma_arch == -1) || 1080 ((uint_t)un->un_maxdma < (uint_t)un->un_maxdma_arch)) { 1081 un->un_maxdma_arch = un->un_maxdma; 1082 } 1083 #endif 1084 1085 /* 1086 * Get the max allowable cdb size 1087 */ 1088 un->un_max_cdb_sz = 1089 scsi_ifgetcap(&devp->sd_address, "max-cdb-length", 1); 1090 if (un->un_max_cdb_sz < CDB_GROUP0) { 1091 ST_DEBUG(devi, st_label, SCSI_DEBUG, 1092 "HBA reported max-cdb-length as %d\n", un->un_max_cdb_sz); 1093 un->un_max_cdb_sz = CDB_GROUP4; /* optimistic default */ 1094 } 1095 1096 if (strcmp(ddi_driver_name(ddi_get_parent(ST_DEVINFO)), "scsi_vhci")) { 1097 un->un_multipath = 0; 1098 } else { 1099 un->un_multipath = 1; 1100 } 1101 1102 un->un_maxbsize = MAXBSIZE_UNKNOWN; 1103 1104 un->un_mediastate = MTIO_NONE; 1105 un->un_HeadClean = TAPE_ALERT_SUPPORT_UNKNOWN; 1106 1107 /* 1108 * initialize kstats 1109 */ 1110 un->un_stats = kstat_create("st", instance, NULL, "tape", 1111 KSTAT_TYPE_IO, 1, KSTAT_FLAG_PERSISTENT); 1112 if (un->un_stats) { 1113 un->un_stats->ks_lock = ST_MUTEX; 1114 kstat_install(un->un_stats); 1115 } 1116 (void) st_create_errstats(un, instance); 1117 1118 /* 1119 * find the drive type for this target 1120 */ 1121 mutex_enter(ST_MUTEX); 1122 un->un_dev = MTMINOR(instance); 1123 st_known_tape_type(un); 1124 un->un_dev = 0; 1125 mutex_exit(ST_MUTEX); 1126 1127 for (node_ix = 0; node_ix < ST_NUM_MEMBERS(st_minor_data); node_ix++) { 1128 int minor; 1129 char *name; 1130 1131 name = st_minor_data[node_ix].name; 1132 minor = st_minor_data[node_ix].minor; 1133 1134 /* 1135 * For default devices set the density to the 1136 * preferred default density for this device. 1137 */ 1138 if (node_ix <= DEF_BSD_NR) { 1139 minor |= un->un_dp->default_density; 1140 } 1141 minor |= MTMINOR(instance); 1142 1143 if (ddi_create_minor_node(devi, name, S_IFCHR, minor, 1144 DDI_NT_TAPE, NULL) == DDI_SUCCESS) { 1145 continue; 1146 } 1147 1148 ddi_remove_minor_node(devi, NULL); 1149 1150 (void) scsi_reset_notify(ROUTE, SCSI_RESET_CANCEL, 1151 st_reset_notification, (caddr_t)un); 1152 cv_destroy(&un->un_clscv); 1153 cv_destroy(&un->un_sbuf_cv); 1154 cv_destroy(&un->un_queue_cv); 1155 cv_destroy(&un->un_state_cv); 1156 #ifdef __x86 1157 cv_destroy(&un->un_contig_mem_cv); 1158 #endif 1159 cv_destroy(&un->un_suspend_cv); 1160 cv_destroy(&un->un_tape_busy_cv); 1161 cv_destroy(&un->un_recov_buf_cv); 1162 if (un->un_recov_taskq) { 1163 ddi_taskq_destroy(un->un_recov_taskq); 1164 } 1165 if (un->un_sbufp) { 1166 freerbuf(un->un_sbufp); 1167 } 1168 if (un->un_recov_buf) { 1169 freerbuf(un->un_recov_buf); 1170 } 1171 if (un->un_uscsi_rqs_buf) { 1172 kmem_free(un->un_uscsi_rqs_buf, SENSE_LENGTH); 1173 } 1174 if (un->un_mspl) { 1175 i_ddi_mem_free((caddr_t)un->un_mspl, NULL); 1176 } 1177 if (un->un_dp_size) { 1178 kmem_free(un->un_dp, un->un_dp_size); 1179 } 1180 if (un->un_state) { 1181 kstat_delete(un->un_stats); 1182 } 1183 if (un->un_errstats) { 1184 kstat_delete(un->un_errstats); 1185 } 1186 1187 scsi_destroy_pkt(un->un_rqs); 1188 scsi_free_consistent_buf(un->un_rqs_bp); 1189 ddi_soft_state_free(st_state, instance); 1190 devp->sd_private = NULL; 1191 devp->sd_sense = NULL; 1192 1193 ddi_prop_remove_all(devi); 1194 return (DDI_FAILURE); 1195 } 1196 1197 return (DDI_SUCCESS); 1198 } 1199 1200 /* 1201 * st_detach: 1202 * 1203 * we allow a detach if and only if: 1204 * - no tape is currently inserted 1205 * - tape position is at BOT or unknown 1206 * (if it is not at BOT then a no rewind 1207 * device was opened and we have to preserve state) 1208 * - it must be in a closed state : no timeouts or scsi_watch requests 1209 * will exist if it is closed, so we don't need to check for 1210 * them here. 1211 */ 1212 /*ARGSUSED*/ 1213 static int 1214 st_detach(dev_info_t *devi, ddi_detach_cmd_t cmd) 1215 { 1216 int instance; 1217 int result; 1218 struct scsi_device *devp; 1219 struct scsi_tape *un; 1220 clock_t wait_cmds_complete; 1221 1222 ST_ENTR(devi, st_detach); 1223 1224 instance = ddi_get_instance(devi); 1225 1226 if (!(un = ddi_get_soft_state(st_state, instance))) { 1227 return (DDI_FAILURE); 1228 } 1229 1230 mutex_enter(ST_MUTEX); 1231 1232 /* 1233 * Clear error entry stack 1234 */ 1235 st_empty_error_stack(un); 1236 1237 mutex_exit(ST_MUTEX); 1238 1239 switch (cmd) { 1240 1241 case DDI_DETACH: 1242 /* 1243 * Undo what we did in st_attach & st_doattach, 1244 * freeing resources and removing things we installed. 1245 * The system framework guarantees we are not active 1246 * with this devinfo node in any other entry points at 1247 * this time. 1248 */ 1249 1250 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 1251 "st_detach: instance=%x, un=%p\n", instance, 1252 (void *)un); 1253 1254 if (((un->un_dp->options & ST_UNLOADABLE) == 0) || 1255 ((un->un_rsvd_status & ST_APPLICATION_RESERVATIONS) != 0) || 1256 (un->un_ncmds != 0) || (un->un_quef != NULL) || 1257 (un->un_state != ST_STATE_CLOSED)) { 1258 /* 1259 * we cannot unload some targets because the 1260 * inquiry returns junk unless immediately 1261 * after a reset 1262 */ 1263 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 1264 "cannot unload instance %x\n", instance); 1265 un->un_unit_attention_flags |= 4; 1266 return (DDI_FAILURE); 1267 } 1268 1269 /* 1270 * if the tape has been removed then we may unload; 1271 * do a test unit ready and if it returns NOT READY 1272 * then we assume that it is safe to unload. 1273 * as a side effect, pmode may be set to invalid if the 1274 * the test unit ready fails; 1275 * also un_state may be set to non-closed, so reset it 1276 */ 1277 if ((un->un_dev) && /* Been opened since attach */ 1278 ((un->un_pos.pmode == legacy) && 1279 (un->un_pos.fileno > 0) || /* Known position not rewound */ 1280 (un->un_pos.blkno != 0)) || /* Or within first file */ 1281 ((un->un_pos.pmode == logical) && 1282 (un->un_pos.lgclblkno > 0))) { 1283 mutex_enter(ST_MUTEX); 1284 /* 1285 * Send Test Unit Ready in the hopes that if 1286 * the drive is not in the state we think it is. 1287 * And the state will be changed so it can be detached. 1288 * If the command fails to reach the device and 1289 * the drive was not rewound or unloaded we want 1290 * to fail the detach till a user command fails 1291 * where after the detach will succead. 1292 */ 1293 result = st_cmd(un, SCMD_TEST_UNIT_READY, 0, SYNC_CMD); 1294 /* 1295 * After TUR un_state may be set to non-closed, 1296 * so reset it back. 1297 */ 1298 un->un_state = ST_STATE_CLOSED; 1299 mutex_exit(ST_MUTEX); 1300 } 1301 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 1302 "un_status=%x, fileno=%x, blkno=%x\n", 1303 un->un_status, un->un_pos.fileno, un->un_pos.blkno); 1304 1305 /* 1306 * check again: 1307 * if we are not at BOT then it is not safe to unload 1308 */ 1309 if ((un->un_dev) && /* Been opened since attach */ 1310 (result != EACCES) && /* drive is use by somebody */ 1311 (((un->un_pos.pmode == legacy) && 1312 (un->un_pos.fileno > 0) || /* Known position not rewound */ 1313 (un->un_pos.blkno != 0)) || /* Or within first file */ 1314 ((un->un_pos.pmode == logical) && 1315 (un->un_pos.lgclblkno > 0)))) { 1316 1317 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 1318 "cannot detach: pmode=%d fileno=0x%x, blkno=0x%x" 1319 " lgclblkno=0x%"PRIx64"\n", un->un_pos.pmode, 1320 un->un_pos.fileno, un->un_pos.blkno, 1321 un->un_pos.lgclblkno); 1322 un->un_unit_attention_flags |= 4; 1323 return (DDI_FAILURE); 1324 } 1325 1326 /* 1327 * Just To make sure that we have released the 1328 * tape unit . 1329 */ 1330 if (un->un_dev && (un->un_rsvd_status & ST_RESERVE) && 1331 !DEVI_IS_DEVICE_REMOVED(devi)) { 1332 mutex_enter(ST_MUTEX); 1333 (void) st_reserve_release(un, ST_RELEASE, st_uscsi_cmd); 1334 mutex_exit(ST_MUTEX); 1335 } 1336 1337 /* 1338 * now remove other data structures allocated in st_doattach() 1339 */ 1340 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 1341 "destroying/freeing\n"); 1342 1343 (void) scsi_reset_notify(ROUTE, SCSI_RESET_CANCEL, 1344 st_reset_notification, (caddr_t)un); 1345 cv_destroy(&un->un_clscv); 1346 cv_destroy(&un->un_sbuf_cv); 1347 cv_destroy(&un->un_queue_cv); 1348 cv_destroy(&un->un_suspend_cv); 1349 cv_destroy(&un->un_tape_busy_cv); 1350 cv_destroy(&un->un_recov_buf_cv); 1351 1352 if (un->un_recov_taskq) { 1353 ddi_taskq_destroy(un->un_recov_taskq); 1354 } 1355 1356 if (un->un_hib_tid) { 1357 (void) untimeout(un->un_hib_tid); 1358 un->un_hib_tid = 0; 1359 } 1360 1361 if (un->un_delay_tid) { 1362 (void) untimeout(un->un_delay_tid); 1363 un->un_delay_tid = 0; 1364 } 1365 cv_destroy(&un->un_state_cv); 1366 1367 #ifdef __x86 1368 cv_destroy(&un->un_contig_mem_cv); 1369 1370 if (un->un_contig_mem_hdl != NULL) { 1371 ddi_dma_free_handle(&un->un_contig_mem_hdl); 1372 } 1373 #endif 1374 if (un->un_sbufp) { 1375 freerbuf(un->un_sbufp); 1376 } 1377 if (un->un_recov_buf) { 1378 freerbuf(un->un_recov_buf); 1379 } 1380 if (un->un_uscsi_rqs_buf) { 1381 kmem_free(un->un_uscsi_rqs_buf, SENSE_LENGTH); 1382 } 1383 if (un->un_mspl) { 1384 i_ddi_mem_free((caddr_t)un->un_mspl, NULL); 1385 } 1386 if (un->un_rqs) { 1387 scsi_destroy_pkt(un->un_rqs); 1388 scsi_free_consistent_buf(un->un_rqs_bp); 1389 } 1390 if (un->un_mkr_pkt) { 1391 scsi_destroy_pkt(un->un_mkr_pkt); 1392 } 1393 if (un->un_arq_enabled) { 1394 (void) scsi_ifsetcap(ROUTE, "auto-rqsense", 0, 1); 1395 } 1396 if (un->un_dp_size) { 1397 kmem_free(un->un_dp, un->un_dp_size); 1398 } 1399 if (un->un_stats) { 1400 kstat_delete(un->un_stats); 1401 un->un_stats = (kstat_t *)0; 1402 } 1403 if (un->un_errstats) { 1404 kstat_delete(un->un_errstats); 1405 un->un_errstats = (kstat_t *)0; 1406 } 1407 if (un->un_media_id_len) { 1408 kmem_free(un->un_media_id, un->un_media_id_len); 1409 } 1410 devp = ST_SCSI_DEVP; 1411 ddi_soft_state_free(st_state, instance); 1412 devp->sd_private = NULL; 1413 devp->sd_sense = NULL; 1414 scsi_unprobe(devp); 1415 ddi_prop_remove_all(devi); 1416 ddi_remove_minor_node(devi, NULL); 1417 ST_DEBUG(0, st_label, SCSI_DEBUG, "st_detach done\n"); 1418 return (DDI_SUCCESS); 1419 1420 case DDI_SUSPEND: 1421 1422 /* 1423 * Suspend/Resume 1424 * 1425 * To process DDI_SUSPEND, we must do the following: 1426 * 1427 * - check ddi_removing_power to see if power will be turned 1428 * off. if so, return DDI_FAILURE 1429 * - check if we are already suspended, 1430 * if so, return DDI_FAILURE 1431 * - check if device state is CLOSED, 1432 * if not, return DDI_FAILURE. 1433 * - wait until outstanding operations complete 1434 * - save tape state 1435 * - block new operations 1436 * - cancel pending timeouts 1437 * 1438 */ 1439 1440 if (ddi_removing_power(devi)) { 1441 return (DDI_FAILURE); 1442 } 1443 mutex_enter(ST_MUTEX); 1444 1445 /* 1446 * Shouldn't already be suspended, if so return failure 1447 */ 1448 if (un->un_pwr_mgmt == ST_PWR_SUSPENDED) { 1449 mutex_exit(ST_MUTEX); 1450 return (DDI_FAILURE); 1451 } 1452 if (un->un_state != ST_STATE_CLOSED) { 1453 mutex_exit(ST_MUTEX); 1454 return (DDI_FAILURE); 1455 } 1456 1457 /* 1458 * Wait for all outstanding I/O's to complete 1459 * 1460 * we wait on both ncmds and the wait queue for times 1461 * when we are flushing after persistent errors are 1462 * flagged, which is when ncmds can be 0, and the 1463 * queue can still have I/O's. This way we preserve 1464 * order of biodone's. 1465 */ 1466 wait_cmds_complete = ddi_get_lbolt(); 1467 wait_cmds_complete += 1468 st_wait_cmds_complete * drv_usectohz(1000000); 1469 while (un->un_ncmds || un->un_quef || 1470 (un->un_state == ST_STATE_RESOURCE_WAIT)) { 1471 1472 if (cv_timedwait(&un->un_tape_busy_cv, ST_MUTEX, 1473 wait_cmds_complete) == -1) { 1474 /* 1475 * Time expired then cancel the command 1476 */ 1477 if (st_reset(un, RESET_LUN) == 0) { 1478 if (un->un_last_throttle) { 1479 un->un_throttle = 1480 un->un_last_throttle; 1481 } 1482 mutex_exit(ST_MUTEX); 1483 return (DDI_FAILURE); 1484 } else { 1485 break; 1486 } 1487 } 1488 } 1489 1490 /* 1491 * DDI_SUSPEND says that the system "may" power down, we 1492 * remember the file and block number before rewinding. 1493 * we also need to save state before issuing 1494 * any WRITE_FILE_MARK command. 1495 */ 1496 (void) st_update_block_pos(un, st_cmd, 0); 1497 COPY_POS(&un->un_suspend_pos, &un->un_pos); 1498 1499 1500 /* 1501 * Issue a zero write file fmk command to tell the drive to 1502 * flush any buffered tape marks 1503 */ 1504 (void) st_cmd(un, SCMD_WRITE_FILE_MARK, 0, SYNC_CMD); 1505 1506 /* 1507 * Because not all tape drives correctly implement buffer 1508 * flushing with the zero write file fmk command, issue a 1509 * synchronous rewind command to force data flushing. 1510 * st_validate_tapemarks() will do a rewind during DDI_RESUME 1511 * anyway. 1512 */ 1513 (void) st_cmd(un, SCMD_REWIND, 0, SYNC_CMD); 1514 1515 /* stop any new operations */ 1516 un->un_pwr_mgmt = ST_PWR_SUSPENDED; 1517 un->un_throttle = 0; 1518 1519 /* 1520 * cancel any outstanding timeouts 1521 */ 1522 if (un->un_delay_tid) { 1523 timeout_id_t temp_id = un->un_delay_tid; 1524 un->un_delay_tid = 0; 1525 un->un_tids_at_suspend |= ST_DELAY_TID; 1526 mutex_exit(ST_MUTEX); 1527 (void) untimeout(temp_id); 1528 mutex_enter(ST_MUTEX); 1529 } 1530 1531 if (un->un_hib_tid) { 1532 timeout_id_t temp_id = un->un_hib_tid; 1533 un->un_hib_tid = 0; 1534 un->un_tids_at_suspend |= ST_HIB_TID; 1535 mutex_exit(ST_MUTEX); 1536 (void) untimeout(temp_id); 1537 mutex_enter(ST_MUTEX); 1538 } 1539 1540 /* 1541 * Suspend the scsi_watch_thread 1542 */ 1543 if (un->un_swr_token) { 1544 opaque_t temp_token = un->un_swr_token; 1545 mutex_exit(ST_MUTEX); 1546 scsi_watch_suspend(temp_token); 1547 } else { 1548 mutex_exit(ST_MUTEX); 1549 } 1550 1551 return (DDI_SUCCESS); 1552 1553 default: 1554 ST_DEBUG(0, st_label, SCSI_DEBUG, "st_detach failed\n"); 1555 return (DDI_FAILURE); 1556 } 1557 } 1558 1559 1560 /* ARGSUSED */ 1561 static int 1562 st_info(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, void **result) 1563 { 1564 dev_t dev; 1565 struct scsi_tape *un; 1566 int instance, error; 1567 1568 ST_ENTR(dip, st_info); 1569 1570 switch (infocmd) { 1571 case DDI_INFO_DEVT2DEVINFO: 1572 dev = (dev_t)arg; 1573 instance = MTUNIT(dev); 1574 if ((un = ddi_get_soft_state(st_state, instance)) == NULL) 1575 return (DDI_FAILURE); 1576 *result = (void *) ST_DEVINFO; 1577 error = DDI_SUCCESS; 1578 break; 1579 case DDI_INFO_DEVT2INSTANCE: 1580 dev = (dev_t)arg; 1581 instance = MTUNIT(dev); 1582 *result = (void *)(uintptr_t)instance; 1583 error = DDI_SUCCESS; 1584 break; 1585 default: 1586 error = DDI_FAILURE; 1587 } 1588 return (error); 1589 } 1590 1591 static int 1592 st_doattach(struct scsi_device *devp, int (*canwait)()) 1593 { 1594 struct scsi_tape *un = NULL; 1595 recov_info *ri; 1596 int km_flags = (canwait != NULL_FUNC) ? KM_SLEEP : KM_NOSLEEP; 1597 int instance; 1598 size_t rlen; 1599 1600 ST_FUNC(devp->sd_dev, st_doattach); 1601 /* 1602 * Call the routine scsi_probe to do some of the dirty work. 1603 * If the INQUIRY command succeeds, the field sd_inq in the 1604 * device structure will be filled in. 1605 */ 1606 ST_DEBUG(devp->sd_dev, st_label, SCSI_DEBUG, 1607 "st_doattach(): probing\n"); 1608 1609 if (scsi_probe(devp, canwait) == SCSIPROBE_EXISTS) { 1610 1611 /* 1612 * In checking the whole inq_dtype byte we are looking at both 1613 * the Peripheral Qualifier and the Peripheral Device Type. 1614 * For this driver we are only interested in sequential devices 1615 * that are connected or capable if connecting to this logical 1616 * unit. 1617 */ 1618 if (devp->sd_inq->inq_dtype == 1619 (DTYPE_SEQUENTIAL | DPQ_POSSIBLE)) { 1620 ST_DEBUG(devp->sd_dev, st_label, SCSI_DEBUG, 1621 "probe exists\n"); 1622 } else { 1623 /* Something there but not a tape device */ 1624 scsi_unprobe(devp); 1625 return (DDI_FAILURE); 1626 } 1627 } else { 1628 /* Nothing there */ 1629 ST_DEBUG(devp->sd_dev, st_label, SCSI_DEBUG, 1630 "probe failure: nothing there\n"); 1631 scsi_unprobe(devp); 1632 return (DDI_FAILURE); 1633 } 1634 1635 1636 /* 1637 * The actual unit is present. 1638 * Now is the time to fill in the rest of our info.. 1639 */ 1640 instance = ddi_get_instance(devp->sd_dev); 1641 1642 if (ddi_soft_state_zalloc(st_state, instance) != DDI_SUCCESS) { 1643 goto error; 1644 } 1645 un = ddi_get_soft_state(st_state, instance); 1646 1647 ASSERT(un != NULL); 1648 1649 un->un_rqs_bp = scsi_alloc_consistent_buf(&devp->sd_address, NULL, 1650 MAX_SENSE_LENGTH, B_READ, canwait, NULL); 1651 if (un->un_rqs_bp == NULL) { 1652 goto error; 1653 } 1654 un->un_rqs = scsi_init_pkt(&devp->sd_address, NULL, un->un_rqs_bp, 1655 CDB_GROUP0, 1, st_recov_sz, PKT_CONSISTENT, canwait, NULL); 1656 if (!un->un_rqs) { 1657 goto error; 1658 } 1659 ASSERT(un->un_rqs->pkt_resid == 0); 1660 devp->sd_sense = 1661 (struct scsi_extended_sense *)un->un_rqs_bp->b_un.b_addr; 1662 ASSERT(geterror(un->un_rqs_bp) == NULL); 1663 1664 (void) scsi_setup_cdb((union scsi_cdb *)un->un_rqs->pkt_cdbp, 1665 SCMD_REQUEST_SENSE, 0, MAX_SENSE_LENGTH, 0); 1666 FILL_SCSI1_LUN(devp, un->un_rqs); 1667 un->un_rqs->pkt_flags |= (FLAG_SENSING | FLAG_HEAD | FLAG_NODISCON); 1668 un->un_rqs->pkt_time = st_io_time; 1669 un->un_rqs->pkt_comp = st_intr; 1670 ri = (recov_info *)un->un_rqs->pkt_private; 1671 if (st_recov_sz == sizeof (recov_info)) { 1672 ri->privatelen = sizeof (recov_info); 1673 } else { 1674 ri->privatelen = sizeof (pkt_info); 1675 } 1676 1677 un->un_sbufp = getrbuf(km_flags); 1678 un->un_recov_buf = getrbuf(km_flags); 1679 1680 un->un_uscsi_rqs_buf = kmem_alloc(SENSE_LENGTH, KM_SLEEP); 1681 1682 /* 1683 * use i_ddi_mem_alloc() for now until we have an interface to allocate 1684 * memory for DMA which doesn't require a DMA handle. ddi_iopb_alloc() 1685 * is obsolete and we want more flexibility in controlling the DMA 1686 * address constraints. 1687 */ 1688 (void) i_ddi_mem_alloc(devp->sd_dev, &st_alloc_attr, 1689 sizeof (struct seq_mode), ((km_flags == KM_SLEEP) ? 1 : 0), 0, 1690 NULL, (caddr_t *)&un->un_mspl, &rlen, NULL); 1691 1692 (void) i_ddi_mem_alloc(devp->sd_dev, &st_alloc_attr, 1693 sizeof (read_pos_data_t), ((km_flags == KM_SLEEP) ? 1 : 0), 0, 1694 NULL, (caddr_t *)&un->un_read_pos_data, &rlen, NULL); 1695 1696 if (!un->un_sbufp || !un->un_mspl || !un->un_read_pos_data) { 1697 ST_DEBUG6(devp->sd_dev, st_label, SCSI_DEBUG, 1698 "probe partial failure: no space\n"); 1699 goto error; 1700 } 1701 1702 bzero(un->un_mspl, sizeof (struct seq_mode)); 1703 1704 cv_init(&un->un_sbuf_cv, NULL, CV_DRIVER, NULL); 1705 cv_init(&un->un_queue_cv, NULL, CV_DRIVER, NULL); 1706 cv_init(&un->un_clscv, NULL, CV_DRIVER, NULL); 1707 cv_init(&un->un_state_cv, NULL, CV_DRIVER, NULL); 1708 #ifdef __x86 1709 cv_init(&un->un_contig_mem_cv, NULL, CV_DRIVER, NULL); 1710 #endif 1711 1712 /* Initialize power managemnet condition variable */ 1713 cv_init(&un->un_suspend_cv, NULL, CV_DRIVER, NULL); 1714 cv_init(&un->un_tape_busy_cv, NULL, CV_DRIVER, NULL); 1715 cv_init(&un->un_recov_buf_cv, NULL, CV_DRIVER, NULL); 1716 1717 un->un_recov_taskq = ddi_taskq_create(devp->sd_dev, 1718 "un_recov_taskq", 1, TASKQ_DEFAULTPRI, km_flags); 1719 1720 ASSERT(un->un_recov_taskq != NULL); 1721 1722 un->un_pos.pmode = invalid; 1723 un->un_sd = devp; 1724 un->un_swr_token = (opaque_t)NULL; 1725 un->un_comp_page = ST_DEV_DATACOMP_PAGE | ST_DEV_CONFIG_PAGE; 1726 un->un_wormable = st_is_drive_worm; 1727 un->un_media_id_method = st_get_media_identification; 1728 /* 1729 * setting long a initial as it contains logical file info. 1730 * support for long format is mandatory but many drive don't do it. 1731 */ 1732 un->un_read_pos_type = LONG_POS; 1733 1734 un->un_suspend_pos.pmode = invalid; 1735 1736 st_add_recovery_info_to_pkt(un, un->un_rqs_bp, un->un_rqs); 1737 1738 #ifdef __x86 1739 if (ddi_dma_alloc_handle(ST_DEVINFO, &st_contig_mem_dma_attr, 1740 DDI_DMA_SLEEP, NULL, &un->un_contig_mem_hdl) != DDI_SUCCESS) { 1741 ST_DEBUG6(devp->sd_dev, st_label, SCSI_DEBUG, 1742 "allocation of contiguous memory dma handle failed!"); 1743 un->un_contig_mem_hdl = NULL; 1744 goto error; 1745 } 1746 #endif 1747 1748 /* 1749 * Since this driver manages devices with "remote" hardware, 1750 * i.e. the devices themselves have no "reg" properties, 1751 * the SUSPEND/RESUME commands in detach/attach will not be 1752 * called by the power management framework unless we request 1753 * it by creating a "pm-hardware-state" property and setting it 1754 * to value "needs-suspend-resume". 1755 */ 1756 if (ddi_prop_update_string(DDI_DEV_T_NONE, devp->sd_dev, 1757 "pm-hardware-state", "needs-suspend-resume") != 1758 DDI_PROP_SUCCESS) { 1759 1760 ST_DEBUG(devp->sd_dev, st_label, SCSI_DEBUG, 1761 "ddi_prop_update(\"pm-hardware-state\") failed\n"); 1762 goto error; 1763 } 1764 1765 if (ddi_prop_create(DDI_DEV_T_NONE, devp->sd_dev, DDI_PROP_CANSLEEP, 1766 "no-involuntary-power-cycles", NULL, 0) != DDI_PROP_SUCCESS) { 1767 1768 ST_DEBUG(devp->sd_dev, st_label, SCSI_DEBUG, 1769 "ddi_prop_create(\"no-involuntary-power-cycles\") " 1770 "failed\n"); 1771 goto error; 1772 } 1773 1774 (void) scsi_reset_notify(ROUTE, SCSI_RESET_NOTIFY, 1775 st_reset_notification, (caddr_t)un); 1776 1777 ST_DEBUG6(devp->sd_dev, st_label, SCSI_DEBUG, "attach success\n"); 1778 return (DDI_SUCCESS); 1779 1780 error: 1781 devp->sd_sense = NULL; 1782 1783 ddi_remove_minor_node(devp->sd_dev, NULL); 1784 if (un) { 1785 if (un->un_mspl) { 1786 i_ddi_mem_free((caddr_t)un->un_mspl, NULL); 1787 } 1788 if (un->un_read_pos_data) { 1789 i_ddi_mem_free((caddr_t)un->un_read_pos_data, 0); 1790 } 1791 if (un->un_sbufp) { 1792 freerbuf(un->un_sbufp); 1793 } 1794 if (un->un_recov_buf) { 1795 freerbuf(un->un_recov_buf); 1796 } 1797 if (un->un_uscsi_rqs_buf) { 1798 kmem_free(un->un_uscsi_rqs_buf, SENSE_LENGTH); 1799 } 1800 #ifdef __x86 1801 if (un->un_contig_mem_hdl != NULL) { 1802 ddi_dma_free_handle(&un->un_contig_mem_hdl); 1803 } 1804 #endif 1805 if (un->un_rqs) { 1806 scsi_destroy_pkt(un->un_rqs); 1807 } 1808 1809 if (un->un_rqs_bp) { 1810 scsi_free_consistent_buf(un->un_rqs_bp); 1811 } 1812 1813 ddi_soft_state_free(st_state, instance); 1814 devp->sd_private = NULL; 1815 } 1816 1817 if (devp->sd_inq) { 1818 scsi_unprobe(devp); 1819 } 1820 return (DDI_FAILURE); 1821 } 1822 1823 typedef int 1824 (*cfg_functp)(struct scsi_tape *, char *vidpid, struct st_drivetype *); 1825 1826 static cfg_functp config_functs[] = { 1827 st_get_conf_from_st_dot_conf, 1828 st_get_conf_from_st_conf_dot_c, 1829 st_get_conf_from_tape_drive, 1830 st_get_default_conf 1831 }; 1832 1833 1834 /* 1835 * determine tape type, using tape-config-list or built-in table or 1836 * use a generic tape config entry 1837 */ 1838 static void 1839 st_known_tape_type(struct scsi_tape *un) 1840 { 1841 struct st_drivetype *dp; 1842 cfg_functp *config_funct; 1843 uchar_t reserved; 1844 1845 ST_FUNC(ST_DEVINFO, st_known_tape_type); 1846 1847 reserved = (un->un_rsvd_status & ST_RESERVE) ? ST_RESERVE 1848 : ST_RELEASE; 1849 1850 /* 1851 * XXX: Emulex MT-02 (and emulators) predates SCSI-1 and has 1852 * no vid & pid inquiry data. So, we provide one. 1853 */ 1854 if (ST_INQUIRY->inq_len == 0 || 1855 (bcmp("\0\0\0\0\0\0\0\0", ST_INQUIRY->inq_vid, 8) == 0)) { 1856 (void) strcpy((char *)ST_INQUIRY->inq_vid, ST_MT02_NAME); 1857 } 1858 1859 if (un->un_dp_size == 0) { 1860 un->un_dp_size = sizeof (struct st_drivetype); 1861 dp = kmem_zalloc((size_t)un->un_dp_size, KM_SLEEP); 1862 un->un_dp = dp; 1863 } else { 1864 dp = un->un_dp; 1865 } 1866 1867 un->un_dp->non_motion_timeout = st_io_time; 1868 /* 1869 * Loop through the configuration methods till one works. 1870 */ 1871 for (config_funct = &config_functs[0]; ; config_funct++) { 1872 if ((*config_funct)(un, ST_INQUIRY->inq_vid, dp)) { 1873 break; 1874 } 1875 } 1876 1877 /* 1878 * If we didn't just make up this configuration and 1879 * all the density codes are the same.. 1880 * Set Auto Density over ride. 1881 */ 1882 if (*config_funct != st_get_default_conf) { 1883 /* 1884 * If this device is one that is configured and all 1885 * densities are the same, This saves doing gets and set 1886 * that yield nothing. 1887 */ 1888 if ((dp->densities[0]) == (dp->densities[1]) && 1889 (dp->densities[0]) == (dp->densities[2]) && 1890 (dp->densities[0]) == (dp->densities[3])) { 1891 1892 dp->options |= ST_AUTODEN_OVERRIDE; 1893 } 1894 } 1895 1896 1897 /* 1898 * Store tape drive characteristics. 1899 */ 1900 un->un_status = 0; 1901 un->un_attached = 1; 1902 un->un_init_options = dp->options; 1903 1904 /* setup operation time-outs based on options */ 1905 st_calculate_timeouts(un); 1906 1907 /* make sure if we are supposed to be variable, make it variable */ 1908 if (dp->options & ST_VARIABLE) { 1909 dp->bsize = 0; 1910 } 1911 1912 if (reserved != ((un->un_rsvd_status & ST_RESERVE) ? ST_RESERVE 1913 : ST_RELEASE)) { 1914 (void) st_reserve_release(un, reserved, st_uscsi_cmd); 1915 } 1916 1917 un->un_unit_attention_flags |= 1; 1918 1919 scsi_log(ST_DEVINFO, st_label, CE_NOTE, "?<%s>\n", dp->name); 1920 1921 } 1922 1923 1924 typedef struct { 1925 int mask; 1926 int bottom; 1927 int top; 1928 char *name; 1929 } conf_limit; 1930 1931 static const conf_limit conf_limits[] = { 1932 1933 -1, 1, 2, "conf version", 1934 -1, MT_ISTS, ST_LAST_TYPE, "drive type", 1935 -1, 0, 0xffffff, "block size", 1936 ST_VALID_OPTS, 0, ST_VALID_OPTS, "options", 1937 -1, 0, 4, "number of densities", 1938 -1, 0, UINT8_MAX, "density code", 1939 -1, 0, 3, "default density", 1940 -1, 0, UINT16_MAX, "non motion timeout", 1941 -1, 0, UINT16_MAX, "I/O timeout", 1942 -1, 0, UINT16_MAX, "space timeout", 1943 -1, 0, UINT16_MAX, "load timeout", 1944 -1, 0, UINT16_MAX, "unload timeout", 1945 -1, 0, UINT16_MAX, "erase timeout", 1946 0, 0, 0, NULL 1947 }; 1948 1949 static int 1950 st_validate_conf_data(struct scsi_tape *un, int *list, int list_len, 1951 const char *conf_name) 1952 { 1953 int dens; 1954 int ndens; 1955 int value; 1956 int type; 1957 int count; 1958 const conf_limit *limit = &conf_limits[0]; 1959 1960 ST_FUNC(ST_DEVINFO, st_validate_conf_data); 1961 1962 ST_DEBUG3(ST_DEVINFO, st_label, CE_NOTE, 1963 "Checking %d entrys total with %d densities\n", list_len, list[4]); 1964 1965 count = list_len; 1966 type = *list; 1967 for (; count && limit->name; count--, list++, limit++) { 1968 1969 value = *list; 1970 if (value & ~limit->mask) { 1971 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 1972 "%s %s value invalid bits set: 0x%X\n", 1973 conf_name, limit->name, value & ~limit->mask); 1974 *list &= limit->mask; 1975 } else if (value < limit->bottom) { 1976 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 1977 "%s %s value too low: value = %d limit %d\n", 1978 conf_name, limit->name, value, limit->bottom); 1979 } else if (value > limit->top) { 1980 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 1981 "%s %s value too high: value = %d limit %d\n", 1982 conf_name, limit->name, value, limit->top); 1983 } else { 1984 ST_DEBUG3(ST_DEVINFO, st_label, CE_CONT, 1985 "%s %s value = 0x%X\n", 1986 conf_name, limit->name, value); 1987 } 1988 1989 /* If not the number of densities continue */ 1990 if (limit != &conf_limits[4]) { 1991 continue; 1992 } 1993 1994 /* If number of densities is not in range can't use config */ 1995 if (value < limit->bottom || value > limit->top) { 1996 return (-1); 1997 } 1998 1999 ndens = min(value, NDENSITIES); 2000 if ((type == 1) && (list_len - ndens) != 6) { 2001 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 2002 "%s conf version 1 with %d densities has %d items" 2003 " should have %d", 2004 conf_name, ndens, list_len, 6 + ndens); 2005 } else if ((type == 2) && (list_len - ndens) != 13) { 2006 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 2007 "%s conf version 2 with %d densities has %d items" 2008 " should have %d", 2009 conf_name, ndens, list_len, 13 + ndens); 2010 } 2011 2012 limit++; 2013 for (dens = 0; dens < ndens && count; dens++) { 2014 count--; 2015 list++; 2016 value = *list; 2017 if (value < limit->bottom) { 2018 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 2019 "%s density[%d] value too low: value =" 2020 " 0x%X limit 0x%X\n", 2021 conf_name, dens, value, limit->bottom); 2022 } else if (value > limit->top) { 2023 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 2024 "%s density[%d] value too high: value =" 2025 " 0x%X limit 0x%X\n", 2026 conf_name, dens, value, limit->top); 2027 } else { 2028 ST_DEBUG3(ST_DEVINFO, st_label, CE_CONT, 2029 "%s density[%d] value = 0x%X\n", 2030 conf_name, dens, value); 2031 } 2032 } 2033 } 2034 2035 return (0); 2036 } 2037 2038 static int 2039 st_get_conf_from_st_dot_conf(struct scsi_tape *un, char *vidpid, 2040 struct st_drivetype *dp) 2041 { 2042 caddr_t config_list = NULL; 2043 caddr_t data_list = NULL; 2044 int *data_ptr; 2045 caddr_t vidptr, prettyptr, datanameptr; 2046 size_t vidlen, prettylen, datanamelen, tripletlen = 0; 2047 int config_list_len, data_list_len, len, i; 2048 int version; 2049 int found = 0; 2050 2051 ST_FUNC(ST_DEVINFO, st_get_conf_from_st_dot_conf); 2052 2053 /* 2054 * Determine type of tape controller. Type is determined by 2055 * checking the vendor ids of the earlier inquiry command and 2056 * comparing those with vids in tape-config-list defined in st.conf 2057 */ 2058 if (ddi_getlongprop(DDI_DEV_T_ANY, ST_DEVINFO, DDI_PROP_DONTPASS, 2059 "tape-config-list", (caddr_t)&config_list, &config_list_len) 2060 != DDI_PROP_SUCCESS) { 2061 return (found); 2062 } 2063 2064 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 2065 "st_get_conf_from_st_dot_conf(): st.conf has tape-config-list\n"); 2066 2067 /* 2068 * Compare vids in each triplet - if it matches, get value for 2069 * data_name and contruct a st_drivetype struct 2070 * tripletlen is not set yet! 2071 */ 2072 for (len = config_list_len, vidptr = config_list; 2073 len > 0; 2074 vidptr += tripletlen, len -= tripletlen) { 2075 2076 vidlen = strlen(vidptr); 2077 prettyptr = vidptr + vidlen + 1; 2078 prettylen = strlen(prettyptr); 2079 datanameptr = prettyptr + prettylen + 1; 2080 datanamelen = strlen(datanameptr); 2081 tripletlen = vidlen + prettylen + datanamelen + 3; 2082 2083 if (vidlen == 0) { 2084 continue; 2085 } 2086 2087 /* 2088 * If inquiry vid dosen't match this triplets vid, 2089 * try the next. 2090 */ 2091 if (strncasecmp(vidpid, vidptr, vidlen)) { 2092 continue; 2093 } 2094 2095 /* 2096 * if prettylen is zero then use the vid string 2097 */ 2098 if (prettylen == 0) { 2099 prettyptr = vidptr; 2100 prettylen = vidlen; 2101 } 2102 2103 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 2104 "vid = %s, pretty=%s, dataname = %s\n", 2105 vidptr, prettyptr, datanameptr); 2106 2107 /* 2108 * get the data list 2109 */ 2110 if (ddi_getlongprop(DDI_DEV_T_ANY, ST_DEVINFO, 0, 2111 datanameptr, (caddr_t)&data_list, 2112 &data_list_len) != DDI_PROP_SUCCESS) { 2113 /* 2114 * Error in getting property value 2115 * print warning! 2116 */ 2117 scsi_log(ST_DEVINFO, st_label, CE_WARN, 2118 "data property (%s) has no value\n", 2119 datanameptr); 2120 continue; 2121 } 2122 2123 /* 2124 * now initialize the st_drivetype struct 2125 */ 2126 (void) strncpy(dp->name, prettyptr, ST_NAMESIZE - 1); 2127 dp->length = (int)min(vidlen, (VIDPIDLEN - 1)); 2128 (void) strncpy(dp->vid, vidptr, dp->length); 2129 data_ptr = (int *)data_list; 2130 /* 2131 * check if data is enough for version, type, 2132 * bsize, options, # of densities, density1, 2133 * density2, ..., default_density 2134 */ 2135 if ((data_list_len < 5 * sizeof (int)) || 2136 (data_list_len < 6 * sizeof (int) + 2137 *(data_ptr + 4) * sizeof (int))) { 2138 /* 2139 * print warning and skip to next triplet. 2140 */ 2141 scsi_log(ST_DEVINFO, st_label, CE_WARN, 2142 "data property (%s) incomplete\n", 2143 datanameptr); 2144 kmem_free(data_list, data_list_len); 2145 continue; 2146 } 2147 2148 if (st_validate_conf_data(un, data_ptr, 2149 data_list_len / sizeof (int), datanameptr)) { 2150 kmem_free(data_list, data_list_len); 2151 scsi_log(ST_DEVINFO, st_label, CE_WARN, 2152 "data property (%s) rejected\n", 2153 datanameptr); 2154 continue; 2155 } 2156 2157 /* 2158 * check version 2159 */ 2160 version = *data_ptr++; 2161 if (version != 1 && version != 2) { 2162 /* print warning but accept it */ 2163 scsi_log(ST_DEVINFO, st_label, CE_WARN, 2164 "Version # for data property (%s) " 2165 "not set to 1 or 2\n", datanameptr); 2166 } 2167 2168 dp->type = *data_ptr++; 2169 dp->bsize = *data_ptr++; 2170 dp->options = *data_ptr++; 2171 dp->options |= ST_DYNAMIC; 2172 len = *data_ptr++; 2173 for (i = 0; i < NDENSITIES; i++) { 2174 if (i < len) { 2175 dp->densities[i] = *data_ptr++; 2176 } 2177 } 2178 dp->default_density = *data_ptr << 3; 2179 if (version == 2 && 2180 data_list_len >= (13 + len) * sizeof (int)) { 2181 data_ptr++; 2182 dp->non_motion_timeout = *data_ptr++; 2183 dp->io_timeout = *data_ptr++; 2184 dp->rewind_timeout = *data_ptr++; 2185 dp->space_timeout = *data_ptr++; 2186 dp->load_timeout = *data_ptr++; 2187 dp->unload_timeout = *data_ptr++; 2188 dp->erase_timeout = *data_ptr++; 2189 } 2190 kmem_free(data_list, data_list_len); 2191 found = 1; 2192 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 2193 "found in st.conf: vid = %s, pretty=%s\n", 2194 dp->vid, dp->name); 2195 break; 2196 } 2197 2198 /* 2199 * free up the memory allocated by ddi_getlongprop 2200 */ 2201 if (config_list) { 2202 kmem_free(config_list, config_list_len); 2203 } 2204 return (found); 2205 } 2206 2207 static int 2208 st_get_conf_from_st_conf_dot_c(struct scsi_tape *un, char *vidpid, 2209 struct st_drivetype *dp) 2210 { 2211 int i; 2212 2213 ST_FUNC(ST_DEVINFO, st_get_conf_from_st_conf_dot_c); 2214 /* 2215 * Determine type of tape controller. Type is determined by 2216 * checking the result of the earlier inquiry command and 2217 * comparing vendor ids with strings in a table declared in st_conf.c. 2218 */ 2219 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2220 "st_get_conf_from_st_conf_dot_c(): looking at st_drivetypes\n"); 2221 2222 for (i = 0; i < st_ndrivetypes; i++) { 2223 if (st_drivetypes[i].length == 0) { 2224 continue; 2225 } 2226 if (strncasecmp(vidpid, st_drivetypes[i].vid, 2227 st_drivetypes[i].length)) { 2228 continue; 2229 } 2230 bcopy(&st_drivetypes[i], dp, sizeof (st_drivetypes[i])); 2231 return (1); 2232 } 2233 return (0); 2234 } 2235 2236 static int 2237 st_get_conf_from_tape_drive(struct scsi_tape *un, char *vidpid, 2238 struct st_drivetype *dp) 2239 { 2240 int bsize; 2241 ulong_t maxbsize; 2242 caddr_t buf; 2243 struct st_drivetype *tem_dp; 2244 struct read_blklim *blklim; 2245 int rval; 2246 int i; 2247 2248 ST_FUNC(ST_DEVINFO, st_get_conf_from_tape_drive); 2249 2250 /* 2251 * Determine the type of tape controller. Type is determined by 2252 * sending SCSI commands to tape drive and deriving the type from 2253 * the returned data. 2254 */ 2255 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2256 "st_get_conf_from_tape_drive(): asking tape drive\n"); 2257 2258 tem_dp = kmem_zalloc(sizeof (struct st_drivetype), KM_SLEEP); 2259 2260 /* 2261 * Make up a name 2262 */ 2263 bcopy(vidpid, tem_dp->name, VIDPIDLEN); 2264 tem_dp->name[VIDPIDLEN] = '\0'; 2265 tem_dp->length = min(strlen(ST_INQUIRY->inq_vid), (VIDPIDLEN - 1)); 2266 (void) strncpy(tem_dp->vid, ST_INQUIRY->inq_vid, tem_dp->length); 2267 /* 2268 * 'clean' vendor and product strings of non-printing chars 2269 */ 2270 for (i = 0; i < VIDPIDLEN - 1; i ++) { 2271 if (tem_dp->name[i] < ' ' || tem_dp->name[i] > '~') { 2272 tem_dp->name[i] = '.'; 2273 } 2274 } 2275 2276 /* 2277 * MODE SENSE to determine block size. 2278 */ 2279 un->un_dp->options |= ST_MODE_SEL_COMP | ST_UNLOADABLE; 2280 rval = st_modesense(un); 2281 if (rval) { 2282 if (rval == EACCES) { 2283 un->un_dp->type = ST_TYPE_INVALID; 2284 rval = 1; 2285 } else { 2286 un->un_dp->options &= ~ST_MODE_SEL_COMP; 2287 rval = 0; 2288 } 2289 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2290 "st_get_conf_from_tape_drive(): fail to mode sense\n"); 2291 goto exit; 2292 } 2293 2294 /* Can mode sense page 0x10 or 0xf */ 2295 tem_dp->options |= ST_MODE_SEL_COMP; 2296 bsize = (un->un_mspl->high_bl << 16) | 2297 (un->un_mspl->mid_bl << 8) | 2298 (un->un_mspl->low_bl); 2299 2300 if (bsize == 0) { 2301 tem_dp->options |= ST_VARIABLE; 2302 tem_dp->bsize = 0; 2303 } else if (bsize > ST_MAXRECSIZE_FIXED) { 2304 rval = st_change_block_size(un, 0); 2305 if (rval) { 2306 if (rval == EACCES) { 2307 un->un_dp->type = ST_TYPE_INVALID; 2308 rval = 1; 2309 } else { 2310 rval = 0; 2311 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2312 "st_get_conf_from_tape_drive(): " 2313 "Fixed record size is too large and" 2314 "cannot switch to variable record size"); 2315 } 2316 goto exit; 2317 } 2318 tem_dp->options |= ST_VARIABLE; 2319 } else { 2320 rval = st_change_block_size(un, 0); 2321 if (rval == 0) { 2322 tem_dp->options |= ST_VARIABLE; 2323 tem_dp->bsize = 0; 2324 } else if (rval != EACCES) { 2325 tem_dp->bsize = bsize; 2326 } else { 2327 un->un_dp->type = ST_TYPE_INVALID; 2328 rval = 1; 2329 goto exit; 2330 } 2331 } 2332 2333 /* 2334 * If READ BLOCk LIMITS works and upper block size limit is 2335 * more than 64K, ST_NO_RECSIZE_LIMIT is supported. 2336 */ 2337 blklim = kmem_zalloc(sizeof (struct read_blklim), KM_SLEEP); 2338 rval = st_read_block_limits(un, blklim); 2339 if (rval) { 2340 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2341 "st_get_conf_from_tape_drive(): " 2342 "fail to read block limits.\n"); 2343 rval = 0; 2344 kmem_free(blklim, sizeof (struct read_blklim)); 2345 goto exit; 2346 } 2347 maxbsize = (blklim->max_hi << 16) + 2348 (blklim->max_mid << 8) + blklim->max_lo; 2349 if (maxbsize > ST_MAXRECSIZE_VARIABLE) { 2350 tem_dp->options |= ST_NO_RECSIZE_LIMIT; 2351 } 2352 kmem_free(blklim, sizeof (struct read_blklim)); 2353 2354 /* 2355 * Inquiry VPD page 0xb0 to see if the tape drive supports WORM 2356 */ 2357 buf = kmem_zalloc(6, KM_SLEEP); 2358 rval = st_get_special_inquiry(un, 6, buf, 0xb0); 2359 if (rval) { 2360 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2361 "st_get_conf_from_tape_drive(): " 2362 "fail to read vitial inquiry.\n"); 2363 rval = 0; 2364 kmem_free(buf, 6); 2365 goto exit; 2366 } 2367 if (buf[4] & 1) { 2368 tem_dp->options |= ST_WORMABLE; 2369 } 2370 kmem_free(buf, 6); 2371 2372 /* Assume BSD BSR KNOWS_EOD */ 2373 tem_dp->options |= ST_BSF | ST_BSR | ST_KNOWS_EOD | ST_UNLOADABLE; 2374 tem_dp->max_rretries = -1; 2375 tem_dp->max_wretries = -1; 2376 2377 /* 2378 * Decide the densities supported by tape drive by sending 2379 * REPORT DENSITY SUPPORT command. 2380 */ 2381 if (st_get_densities_from_tape_drive(un, tem_dp) == 0) { 2382 goto exit; 2383 } 2384 2385 /* 2386 * Decide the timeout values for several commands by sending 2387 * REPORT SUPPORTED OPERATION CODES command. 2388 */ 2389 rval = st_get_timeout_values_from_tape_drive(un, tem_dp); 2390 if (rval == 0 || ((rval == 1) && (tem_dp->type == ST_TYPE_INVALID))) { 2391 goto exit; 2392 } 2393 2394 bcopy(tem_dp, dp, sizeof (struct st_drivetype)); 2395 rval = 1; 2396 2397 exit: 2398 un->un_status = KEY_NO_SENSE; 2399 kmem_free(tem_dp, sizeof (struct st_drivetype)); 2400 return (rval); 2401 } 2402 2403 static int 2404 st_get_densities_from_tape_drive(struct scsi_tape *un, 2405 struct st_drivetype *dp) 2406 { 2407 int i, p; 2408 size_t buflen; 2409 ushort_t des_len; 2410 uchar_t *den_header; 2411 uchar_t num_den; 2412 uchar_t den[NDENSITIES]; 2413 uchar_t deflt[NDENSITIES]; 2414 struct report_density_desc *den_desc; 2415 2416 ST_FUNC(ST_DEVINFO, st_get_densities_from_type_drive); 2417 2418 /* 2419 * Since we have no idea how many densitiy support entries 2420 * will be returned, we send the command firstly assuming 2421 * there is only one. Then we can decide the number of 2422 * entries by available density support length. If multiple 2423 * entries exist, we will resend the command with enough 2424 * buffer size. 2425 */ 2426 buflen = sizeof (struct report_density_header) + 2427 sizeof (struct report_density_desc); 2428 den_header = kmem_zalloc(buflen, KM_SLEEP); 2429 if (st_report_density_support(un, den_header, buflen) != 0) { 2430 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2431 "st_get_conf_from_tape_drive(): fail to report density.\n"); 2432 kmem_free(den_header, buflen); 2433 return (0); 2434 } 2435 des_len = 2436 BE_16(((struct report_density_header *)den_header)->ava_dens_len); 2437 num_den = (des_len - 2) / sizeof (struct report_density_desc); 2438 2439 if (num_den > 1) { 2440 kmem_free(den_header, buflen); 2441 buflen = sizeof (struct report_density_header) + 2442 sizeof (struct report_density_desc) * num_den; 2443 den_header = kmem_zalloc(buflen, KM_SLEEP); 2444 if (st_report_density_support(un, den_header, buflen) != 0) { 2445 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2446 "st_get_conf_from_tape_drive(): " 2447 "fail to report density.\n"); 2448 kmem_free(den_header, buflen); 2449 return (0); 2450 } 2451 } 2452 2453 den_desc = (struct report_density_desc *)(den_header 2454 + sizeof (struct report_density_header)); 2455 2456 /* 2457 * Decide the drive type by assigning organization 2458 */ 2459 for (i = 0; i < ST_NUM_MEMBERS(st_vid_dt); i ++) { 2460 if (strncmp(st_vid_dt[i].vid, (char *)(den_desc->ass_org), 2461 8) == 0) { 2462 dp->type = st_vid_dt[i].type; 2463 break; 2464 } 2465 } 2466 if (i == ST_NUM_MEMBERS(st_vid_dt)) { 2467 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2468 "st_get_conf_from_tape_drive(): " 2469 "can't find match of assigned ort.\n"); 2470 kmem_free(den_header, buflen); 2471 return (0); 2472 } 2473 2474 /* 2475 * The tape drive may support many tape formats, but the st driver 2476 * supports only the four highest densities. Since density code 2477 * values are returned by ascending sequence, we start from the 2478 * last entry of density support data block descriptor. 2479 */ 2480 p = 0; 2481 den_desc += num_den - 1; 2482 for (i = 0; i < num_den && p < NDENSITIES; i ++, den_desc --) { 2483 if ((den_desc->pri_den != 0) && (den_desc->wrtok)) { 2484 if (p != 0) { 2485 if (den_desc->pri_den >= den[p - 1]) { 2486 continue; 2487 } 2488 } 2489 den[p] = den_desc->pri_den; 2490 deflt[p] = den_desc->deflt; 2491 p ++; 2492 } 2493 } 2494 2495 switch (p) { 2496 case 0: 2497 bzero(dp->densities, NDENSITIES); 2498 dp->options |= ST_AUTODEN_OVERRIDE; 2499 dp->default_density = MT_DENSITY4; 2500 break; 2501 2502 case 1: 2503 (void) memset(dp->densities, den[0], NDENSITIES); 2504 dp->options |= ST_AUTODEN_OVERRIDE; 2505 dp->default_density = MT_DENSITY4; 2506 break; 2507 2508 case 2: 2509 dp->densities[0] = den[1]; 2510 dp->densities[1] = den[1]; 2511 dp->densities[2] = den[0]; 2512 dp->densities[3] = den[0]; 2513 if (deflt[0]) { 2514 dp->default_density = MT_DENSITY4; 2515 } else { 2516 dp->default_density = MT_DENSITY2; 2517 } 2518 break; 2519 2520 case 3: 2521 dp->densities[0] = den[2]; 2522 dp->densities[1] = den[1]; 2523 dp->densities[2] = den[0]; 2524 dp->densities[3] = den[0]; 2525 if (deflt[0]) { 2526 dp->default_density = MT_DENSITY4; 2527 } else if (deflt[1]) { 2528 dp->default_density = MT_DENSITY2; 2529 } else { 2530 dp->default_density = MT_DENSITY1; 2531 } 2532 break; 2533 2534 default: 2535 for (i = p; i > p - NDENSITIES; i --) { 2536 dp->densities[i - 1] = den[p - i]; 2537 } 2538 if (deflt[0]) { 2539 dp->default_density = MT_DENSITY4; 2540 } else if (deflt[1]) { 2541 dp->default_density = MT_DENSITY3; 2542 } else if (deflt[2]) { 2543 dp->default_density = MT_DENSITY2; 2544 } else { 2545 dp->default_density = MT_DENSITY1; 2546 } 2547 break; 2548 } 2549 2550 bzero(dp->mediatype, NDENSITIES); 2551 2552 kmem_free(den_header, buflen); 2553 return (1); 2554 } 2555 2556 static int 2557 st_get_timeout_values_from_tape_drive(struct scsi_tape *un, 2558 struct st_drivetype *dp) 2559 { 2560 ushort_t timeout; 2561 int rval; 2562 2563 ST_FUNC(ST_DEVINFO, st_get_timeout_values_from_type_drive); 2564 2565 rval = st_get_timeouts_value(un, SCMD_ERASE, &timeout, 0); 2566 if (rval) { 2567 if (rval == EACCES) { 2568 un->un_dp->type = ST_TYPE_INVALID; 2569 dp->type = ST_TYPE_INVALID; 2570 return (1); 2571 } 2572 return (0); 2573 } 2574 dp->erase_timeout = timeout; 2575 2576 rval = st_get_timeouts_value(un, SCMD_READ, &timeout, 0); 2577 if (rval) { 2578 if (rval == EACCES) { 2579 un->un_dp->type = ST_TYPE_INVALID; 2580 dp->type = ST_TYPE_INVALID; 2581 return (1); 2582 } 2583 return (0); 2584 } 2585 dp->io_timeout = timeout; 2586 2587 rval = st_get_timeouts_value(un, SCMD_WRITE, &timeout, 0); 2588 if (rval) { 2589 if (rval == EACCES) { 2590 un->un_dp->type = ST_TYPE_INVALID; 2591 dp->type = ST_TYPE_INVALID; 2592 return (1); 2593 } 2594 return (0); 2595 } 2596 dp->io_timeout = max(dp->io_timeout, timeout); 2597 2598 rval = st_get_timeouts_value(un, SCMD_SPACE, &timeout, 0); 2599 if (rval) { 2600 if (rval == EACCES) { 2601 un->un_dp->type = ST_TYPE_INVALID; 2602 dp->type = ST_TYPE_INVALID; 2603 return (1); 2604 } 2605 return (0); 2606 } 2607 dp->space_timeout = timeout; 2608 2609 rval = st_get_timeouts_value(un, SCMD_LOAD, &timeout, 0); 2610 if (rval) { 2611 if (rval == EACCES) { 2612 un->un_dp->type = ST_TYPE_INVALID; 2613 dp->type = ST_TYPE_INVALID; 2614 return (1); 2615 } 2616 return (0); 2617 } 2618 dp->load_timeout = timeout; 2619 dp->unload_timeout = timeout; 2620 2621 rval = st_get_timeouts_value(un, SCMD_REWIND, &timeout, 0); 2622 if (rval) { 2623 if (rval == EACCES) { 2624 un->un_dp->type = ST_TYPE_INVALID; 2625 dp->type = ST_TYPE_INVALID; 2626 return (1); 2627 } 2628 return (0); 2629 } 2630 dp->rewind_timeout = timeout; 2631 2632 rval = st_get_timeouts_value(un, SCMD_INQUIRY, &timeout, 0); 2633 if (rval) { 2634 if (rval == EACCES) { 2635 un->un_dp->type = ST_TYPE_INVALID; 2636 dp->type = ST_TYPE_INVALID; 2637 return (1); 2638 } 2639 return (0); 2640 } 2641 dp->non_motion_timeout = timeout; 2642 2643 return (1); 2644 } 2645 2646 static int 2647 st_get_timeouts_value(struct scsi_tape *un, uchar_t option_code, 2648 ushort_t *timeout_value, ushort_t service_action) 2649 { 2650 uchar_t *timeouts; 2651 uchar_t *oper; 2652 uchar_t support; 2653 uchar_t cdbsize; 2654 uchar_t ctdp; 2655 size_t buflen; 2656 int rval; 2657 2658 ST_FUNC(ST_DEVINFO, st_get_timeouts_value); 2659 2660 buflen = sizeof (struct one_com_des) + 2661 sizeof (struct com_timeout_des); 2662 oper = kmem_zalloc(buflen, KM_SLEEP); 2663 rval = st_report_supported_operation(un, oper, option_code, 2664 service_action); 2665 2666 if (rval) { 2667 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2668 "st_get_timeouts_value(): " 2669 "fail to timeouts value for command %d.\n", option_code); 2670 kmem_free(oper, buflen); 2671 return (rval); 2672 } 2673 2674 support = ((struct one_com_des *)oper)->support; 2675 if ((support != SUPPORT_VALUES_SUPPORT_SCSI) && 2676 (support != SUPPORT_VALUES_SUPPORT_VENDOR)) { 2677 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2678 "st_get_timeouts_value(): " 2679 "command %d is not supported.\n", option_code); 2680 kmem_free(oper, buflen); 2681 return (ENOTSUP); 2682 } 2683 2684 ctdp = ((struct one_com_des *)oper)->ctdp; 2685 if (!ctdp) { 2686 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2687 "st_get_timeouts_value(): " 2688 "command timeout is not included.\n"); 2689 kmem_free(oper, buflen); 2690 return (ENOTSUP); 2691 } 2692 2693 cdbsize = BE_16(((struct one_com_des *)oper)->cdb_size); 2694 timeouts = (uchar_t *)(oper + cdbsize + 4); 2695 2696 /* 2697 * Timeout value in seconds is 4 bytes, but we only support the lower 2 2698 * bytes. If the higher 2 bytes are not zero, the timeout value is set 2699 * to 0xFFFF. 2700 */ 2701 if (*(timeouts + 8) != 0 || *(timeouts + 9) != 0) { 2702 *timeout_value = USHRT_MAX; 2703 } else { 2704 *timeout_value = ((*(timeouts + 10)) << 8) | 2705 (*(timeouts + 11)); 2706 } 2707 2708 kmem_free(oper, buflen); 2709 return (0); 2710 } 2711 2712 static int 2713 st_get_default_conf(struct scsi_tape *un, char *vidpid, struct st_drivetype *dp) 2714 { 2715 int i; 2716 2717 ST_FUNC(ST_DEVINFO, st_get_default_conf); 2718 2719 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 2720 "st_get_default_conf(): making drivetype from INQ cmd\n"); 2721 2722 /* 2723 * Make up a name 2724 */ 2725 bcopy("Vendor '", dp->name, 8); 2726 bcopy(vidpid, &dp->name[8], VIDLEN); 2727 bcopy("' Product '", &dp->name[16], 11); 2728 bcopy(&vidpid[8], &dp->name[27], PIDLEN); 2729 dp->name[ST_NAMESIZE - 2] = '\''; 2730 dp->name[ST_NAMESIZE - 1] = '\0'; 2731 dp->length = min(strlen(ST_INQUIRY->inq_vid), (VIDPIDLEN - 1)); 2732 (void) strncpy(dp->vid, ST_INQUIRY->inq_vid, dp->length); 2733 /* 2734 * 'clean' vendor and product strings of non-printing chars 2735 */ 2736 for (i = 0; i < ST_NAMESIZE - 2; i++) { 2737 if (dp->name[i] < ' ' || dp->name[i] > '~') { 2738 dp->name[i] = '.'; 2739 } 2740 } 2741 dp->type = ST_TYPE_INVALID; 2742 dp->options |= (ST_DYNAMIC | ST_UNLOADABLE | ST_MODE_SEL_COMP); 2743 2744 return (1); /* Can Not Fail */ 2745 } 2746 2747 /* 2748 * Regular Unix Entry points 2749 */ 2750 2751 2752 2753 /* ARGSUSED */ 2754 static int 2755 st_open(dev_t *dev_p, int flag, int otyp, cred_t *cred_p) 2756 { 2757 dev_t dev = *dev_p; 2758 int rval = 0; 2759 2760 GET_SOFT_STATE(dev); 2761 2762 ST_ENTR(ST_DEVINFO, st_open); 2763 2764 /* 2765 * validate that we are addressing a sensible unit 2766 */ 2767 mutex_enter(ST_MUTEX); 2768 2769 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 2770 "st_open(node = %s dev = 0x%lx, flag = %d, otyp = %d)\n", 2771 st_dev_name(dev), *dev_p, flag, otyp); 2772 2773 /* 2774 * All device accesss go thru st_strategy() where we check 2775 * suspend status 2776 */ 2777 2778 if (!un->un_attached) { 2779 st_known_tape_type(un); 2780 if (!un->un_attached) { 2781 rval = ENXIO; 2782 goto exit; 2783 } 2784 2785 } 2786 2787 /* 2788 * Check for the case of the tape in the middle of closing. 2789 * This isn't simply a check of the current state, because 2790 * we could be in state of sensing with the previous state 2791 * that of closing. 2792 * 2793 * And don't allow multiple opens. 2794 */ 2795 if (!(flag & (FNDELAY | FNONBLOCK)) && IS_CLOSING(un)) { 2796 un->un_laststate = un->un_state; 2797 un->un_state = ST_STATE_CLOSE_PENDING_OPEN; 2798 while (IS_CLOSING(un) || 2799 un->un_state == ST_STATE_CLOSE_PENDING_OPEN) { 2800 if (cv_wait_sig(&un->un_clscv, ST_MUTEX) == 0) { 2801 rval = EINTR; 2802 un->un_state = un->un_laststate; 2803 goto exit; 2804 } 2805 } 2806 } else if (un->un_state != ST_STATE_CLOSED) { 2807 rval = EBUSY; 2808 goto busy; 2809 } 2810 2811 /* 2812 * record current dev 2813 */ 2814 un->un_dev = dev; 2815 un->un_oflags = flag; /* save for use in st_tape_init() */ 2816 un->un_errno = 0; /* no errors yet */ 2817 un->un_restore_pos = 0; 2818 un->un_rqs_state = 0; 2819 2820 /* 2821 * If we are opening O_NDELAY, or O_NONBLOCK, we don't check for 2822 * anything, leave internal states alone, if fileno >= 0 2823 */ 2824 if (flag & (FNDELAY | FNONBLOCK)) { 2825 switch (un->un_pos.pmode) { 2826 2827 case invalid: 2828 un->un_state = ST_STATE_OFFLINE; 2829 break; 2830 2831 case legacy: 2832 /* 2833 * If position is anything other than rewound. 2834 */ 2835 if (un->un_pos.fileno != 0 || un->un_pos.blkno != 0) { 2836 /* 2837 * set un_read_only/write-protect status. 2838 * 2839 * If the tape is not bot we can assume 2840 * that mspl->wp_status is set properly. 2841 * else 2842 * we need to do a mode sense/Tur once 2843 * again to get the actual tape status.(since 2844 * user might have replaced the tape) 2845 * Hence make the st state OFFLINE so that 2846 * we re-intialize the tape once again. 2847 */ 2848 un->un_read_only = 2849 (un->un_oflags & FWRITE) ? RDWR : RDONLY; 2850 un->un_state = ST_STATE_OPEN_PENDING_IO; 2851 } else { 2852 un->un_state = ST_STATE_OFFLINE; 2853 } 2854 break; 2855 case logical: 2856 if (un->un_pos.lgclblkno == 0) { 2857 un->un_state = ST_STATE_OFFLINE; 2858 } else { 2859 un->un_read_only = 2860 (un->un_oflags & FWRITE) ? RDWR : RDONLY; 2861 un->un_state = ST_STATE_OPEN_PENDING_IO; 2862 } 2863 break; 2864 } 2865 rval = 0; 2866 } else { 2867 /* 2868 * Not opening O_NDELAY. 2869 */ 2870 un->un_state = ST_STATE_OPENING; 2871 2872 /* 2873 * Clear error entry stack 2874 */ 2875 st_empty_error_stack(un); 2876 2877 rval = st_tape_init(un); 2878 if ((rval == EACCES) && (un->un_read_only & WORM)) { 2879 un->un_state = ST_STATE_OPEN_PENDING_IO; 2880 rval = 0; /* so open doesn't fail */ 2881 } else if (rval) { 2882 /* 2883 * Release the tape unit, if reserved and not 2884 * preserve reserve. 2885 */ 2886 if ((un->un_rsvd_status & 2887 (ST_RESERVE | ST_PRESERVE_RESERVE)) == ST_RESERVE) { 2888 (void) st_reserve_release(un, ST_RELEASE, 2889 st_uscsi_cmd); 2890 } 2891 } else { 2892 un->un_state = ST_STATE_OPEN_PENDING_IO; 2893 } 2894 } 2895 2896 exit: 2897 /* 2898 * we don't want any uninvited guests scrogging our data when we're 2899 * busy with something, so for successful opens or failed opens 2900 * (except for EBUSY), reset these counters and state appropriately. 2901 */ 2902 if (rval != EBUSY) { 2903 if (rval) { 2904 un->un_state = ST_STATE_CLOSED; 2905 } 2906 un->un_err_resid = 0; 2907 un->un_retry_ct = 0; 2908 } 2909 busy: 2910 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 2911 "st_open: return val = %x, state = %d\n", rval, un->un_state); 2912 mutex_exit(ST_MUTEX); 2913 return (rval); 2914 2915 } 2916 2917 static int 2918 st_tape_init(struct scsi_tape *un) 2919 { 2920 int err; 2921 int rval = 0; 2922 2923 ST_FUNC(ST_DEVINFO, st_tape_init); 2924 2925 ASSERT(mutex_owned(ST_MUTEX)); 2926 2927 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 2928 "st_tape_init(un = 0x%p, oflags = %d)\n", (void*)un, un->un_oflags); 2929 2930 /* 2931 * Clean up after any errors left by 'last' close. 2932 * This also handles the case of the initial open. 2933 */ 2934 if (un->un_state != ST_STATE_INITIALIZING) { 2935 un->un_laststate = un->un_state; 2936 un->un_state = ST_STATE_OPENING; 2937 } 2938 2939 un->un_kbytes_xferred = 0; 2940 2941 /* 2942 * do a throw away TUR to clear check condition 2943 */ 2944 err = st_cmd(un, SCMD_TEST_UNIT_READY, 0, SYNC_CMD); 2945 2946 /* 2947 * If test unit ready fails because the drive is reserved 2948 * by another host fail the open for no access. 2949 */ 2950 if (err) { 2951 if (un->un_rsvd_status & ST_RESERVATION_CONFLICT) { 2952 un->un_state = ST_STATE_CLOSED; 2953 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 2954 "st_tape_init: RESERVATION CONFLICT\n"); 2955 rval = EACCES; 2956 goto exit; 2957 } else if ((un->un_rsvd_status & 2958 ST_APPLICATION_RESERVATIONS) != 0) { 2959 if ((ST_RQSENSE != NULL) && 2960 (ST_RQSENSE->es_add_code == 0x2a && 2961 ST_RQSENSE->es_qual_code == 0x03)) { 2962 un->un_state = ST_STATE_CLOSED; 2963 rval = EACCES; 2964 goto exit; 2965 } 2966 } 2967 } 2968 2969 /* 2970 * Tape self identification could fail if the tape drive is used by 2971 * another host during attach time. We try to get the tape type 2972 * again. This is also applied to any posponed configuration methods. 2973 */ 2974 if (un->un_dp->type == ST_TYPE_INVALID) { 2975 un->un_comp_page = ST_DEV_DATACOMP_PAGE | ST_DEV_CONFIG_PAGE; 2976 st_known_tape_type(un); 2977 } 2978 2979 /* 2980 * If the tape type is still invalid, try to determine the generic 2981 * configuration. 2982 */ 2983 if (un->un_dp->type == ST_TYPE_INVALID) { 2984 rval = st_determine_generic(un); 2985 if (rval) { 2986 if (rval != EACCES) { 2987 rval = EIO; 2988 } 2989 un->un_state = ST_STATE_CLOSED; 2990 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 2991 "st_tape_init: %s invalid type\n", 2992 rval == EACCES ? "EACCES" : "EIO"); 2993 goto exit; 2994 } 2995 /* 2996 * If this is a Unknown Type drive, 2997 * Use the READ BLOCK LIMITS to determine if 2998 * allow large xfer is approprate if not globally 2999 * disabled with st_allow_large_xfer. 3000 */ 3001 un->un_allow_large_xfer = (uchar_t)st_allow_large_xfer; 3002 } else { 3003 3004 /* 3005 * If we allow_large_xfer (ie >64k) and have not yet found out 3006 * the max block size supported by the drive, 3007 * find it by issueing a READ_BLKLIM command. 3008 * if READ_BLKLIM cmd fails, assume drive doesn't 3009 * allow_large_xfer and min/max block sizes as 1 byte and 63k. 3010 */ 3011 un->un_allow_large_xfer = st_allow_large_xfer && 3012 (un->un_dp->options & ST_NO_RECSIZE_LIMIT); 3013 } 3014 /* 3015 * if maxbsize is unknown, set the maximum block size. 3016 */ 3017 if (un->un_maxbsize == MAXBSIZE_UNKNOWN) { 3018 3019 /* 3020 * Get the Block limits of the tape drive. 3021 * if un->un_allow_large_xfer = 0 , then make sure 3022 * that maxbsize is <= ST_MAXRECSIZE_FIXED. 3023 */ 3024 un->un_rbl = kmem_zalloc(RBLSIZE, KM_SLEEP); 3025 3026 err = st_cmd(un, SCMD_READ_BLKLIM, RBLSIZE, SYNC_CMD); 3027 if (err) { 3028 /* Retry */ 3029 err = st_cmd(un, SCMD_READ_BLKLIM, RBLSIZE, SYNC_CMD); 3030 } 3031 if (!err) { 3032 3033 /* 3034 * if cmd successful, use limit returned 3035 */ 3036 un->un_maxbsize = (un->un_rbl->max_hi << 16) + 3037 (un->un_rbl->max_mid << 8) + 3038 un->un_rbl->max_lo; 3039 un->un_minbsize = (un->un_rbl->min_hi << 8) + 3040 un->un_rbl->min_lo; 3041 un->un_data_mod = 1 << un->un_rbl->granularity; 3042 if ((un->un_maxbsize == 0) || 3043 (un->un_allow_large_xfer == 0 && 3044 un->un_maxbsize > ST_MAXRECSIZE_FIXED)) { 3045 un->un_maxbsize = ST_MAXRECSIZE_FIXED; 3046 3047 } else if (un->un_dp->type == ST_TYPE_DEFAULT) { 3048 /* 3049 * Drive is not one that is configured, But the 3050 * READ BLOCK LIMITS tells us it can do large 3051 * xfers. 3052 */ 3053 if (un->un_maxbsize > ST_MAXRECSIZE_FIXED) { 3054 un->un_dp->options |= 3055 ST_NO_RECSIZE_LIMIT; 3056 } 3057 /* 3058 * If max and mimimum block limits are the 3059 * same this is a fixed block size device. 3060 */ 3061 if (un->un_maxbsize == un->un_minbsize) { 3062 un->un_dp->options &= ~ST_VARIABLE; 3063 } 3064 } 3065 3066 if (un->un_minbsize == 0) { 3067 un->un_minbsize = 1; 3068 } 3069 3070 } else { /* error on read block limits */ 3071 3072 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 3073 "!st_tape_init: Error on READ BLOCK LIMITS," 3074 " errno = %d un_rsvd_status = 0x%X\n", 3075 err, un->un_rsvd_status); 3076 3077 /* 3078 * since read block limits cmd failed, 3079 * do not allow large xfers. 3080 * use old values in st_minphys 3081 */ 3082 if (un->un_rsvd_status & ST_RESERVATION_CONFLICT) { 3083 rval = EACCES; 3084 } else { 3085 un->un_allow_large_xfer = 0; 3086 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 3087 "!Disabling large transfers\n"); 3088 3089 /* 3090 * we guess maxbsize and minbsize 3091 */ 3092 if (un->un_bsize) { 3093 un->un_maxbsize = un->un_minbsize = 3094 un->un_bsize; 3095 } else { 3096 un->un_maxbsize = ST_MAXRECSIZE_FIXED; 3097 un->un_minbsize = 1; 3098 } 3099 /* 3100 * Data Mod must be set, 3101 * Even if read block limits fails. 3102 * Prevents Divide By Zero in st_rw(). 3103 */ 3104 un->un_data_mod = 1; 3105 } 3106 } 3107 if (un->un_rbl) { 3108 kmem_free(un->un_rbl, RBLSIZE); 3109 un->un_rbl = NULL; 3110 } 3111 3112 if (rval) { 3113 goto exit; 3114 } 3115 } 3116 3117 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 3118 "maxdma = %d, maxbsize = %d, minbsize = %d, %s large xfer\n", 3119 un->un_maxdma, un->un_maxbsize, un->un_minbsize, 3120 (un->un_allow_large_xfer ? "ALLOW": "DON'T ALLOW")); 3121 3122 err = st_cmd(un, SCMD_TEST_UNIT_READY, 0, SYNC_CMD); 3123 3124 if (err != 0) { 3125 if (err == EINTR) { 3126 un->un_laststate = un->un_state; 3127 un->un_state = ST_STATE_CLOSED; 3128 rval = EINTR; 3129 goto exit; 3130 } 3131 /* 3132 * Make sure the tape is ready 3133 */ 3134 un->un_pos.pmode = invalid; 3135 if (un->un_status != KEY_UNIT_ATTENTION) { 3136 /* 3137 * allow open no media. Subsequent MTIOCSTATE 3138 * with media present will complete the open 3139 * logic. 3140 */ 3141 un->un_laststate = un->un_state; 3142 if (un->un_oflags & (FNONBLOCK|FNDELAY)) { 3143 un->un_mediastate = MTIO_EJECTED; 3144 un->un_state = ST_STATE_OFFLINE; 3145 rval = 0; 3146 goto exit; 3147 } else { 3148 un->un_state = ST_STATE_CLOSED; 3149 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 3150 "st_tape_init EIO no media, not opened " 3151 "O_NONBLOCK|O_EXCL\n"); 3152 rval = EIO; 3153 goto exit; 3154 } 3155 } 3156 } 3157 3158 /* 3159 * On each open, initialize block size from drivetype struct, 3160 * as it could have been changed by MTSRSZ ioctl. 3161 * Now, ST_VARIABLE simply means drive is capable of variable 3162 * mode. All drives are assumed to support fixed records. 3163 * Hence, un_bsize tells what mode the drive is in. 3164 * un_bsize = 0 - variable record length 3165 * = x - fixed record length is x 3166 */ 3167 un->un_bsize = un->un_dp->bsize; 3168 3169 /* 3170 * If saved position is valid go there 3171 */ 3172 if (un->un_restore_pos) { 3173 un->un_restore_pos = 0; 3174 un->un_pos.fileno = un->un_save_fileno; 3175 un->un_pos.blkno = un->un_save_blkno; 3176 rval = st_validate_tapemarks(un, st_uscsi_cmd, &un->un_pos); 3177 if (rval != 0) { 3178 if (rval != EACCES) { 3179 rval = EIO; 3180 } 3181 un->un_laststate = un->un_state; 3182 un->un_state = ST_STATE_CLOSED; 3183 goto exit; 3184 } 3185 } 3186 3187 if (un->un_pos.pmode == invalid) { 3188 rval = st_loadtape(un); 3189 if (rval) { 3190 if (rval != EACCES) { 3191 rval = EIO; 3192 } 3193 un->un_laststate = un->un_state; 3194 un->un_state = ST_STATE_CLOSED; 3195 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 3196 "st_tape_init: %s can't open tape\n", 3197 rval == EACCES ? "EACCES" : "EIO"); 3198 goto exit; 3199 } 3200 } 3201 3202 /* 3203 * do a mode sense to pick up state of current write-protect, 3204 * Could cause reserve and fail due to conflict. 3205 */ 3206 if (un->un_unit_attention_flags) { 3207 rval = st_modesense(un); 3208 if (rval == EACCES) { 3209 goto exit; 3210 } 3211 } 3212 3213 /* 3214 * If we are opening the tape for writing, check 3215 * to make sure that the tape can be written. 3216 */ 3217 if (un->un_oflags & FWRITE) { 3218 err = 0; 3219 if (un->un_mspl->wp) { 3220 un->un_status = KEY_WRITE_PROTECT; 3221 un->un_laststate = un->un_state; 3222 un->un_state = ST_STATE_CLOSED; 3223 rval = EACCES; 3224 /* 3225 * STK sets the wp bit if volsafe tape is loaded. 3226 */ 3227 if ((un->un_dp->type == MT_ISSTK9840) && 3228 (un->un_dp->options & ST_WORMABLE)) { 3229 un->un_read_only = RDONLY; 3230 } else { 3231 goto exit; 3232 } 3233 } else { 3234 un->un_read_only = RDWR; 3235 } 3236 } else { 3237 un->un_read_only = RDONLY; 3238 } 3239 3240 if (un->un_dp->options & ST_WORMABLE && 3241 un->un_unit_attention_flags) { 3242 un->un_read_only |= un->un_wormable(un); 3243 3244 if (((un->un_read_only == WORM) || 3245 (un->un_read_only == RDWORM)) && 3246 ((un->un_oflags & FWRITE) == FWRITE)) { 3247 un->un_status = KEY_DATA_PROTECT; 3248 rval = EACCES; 3249 ST_DEBUG4(ST_DEVINFO, st_label, CE_NOTE, 3250 "read_only = %d eof = %d oflag = %d\n", 3251 un->un_read_only, un->un_pos.eof, un->un_oflags); 3252 } 3253 } 3254 3255 /* 3256 * If we're opening the tape write-only, we need to 3257 * write 2 filemarks on the HP 1/2 inch drive, to 3258 * create a null file. 3259 */ 3260 if ((un->un_read_only == RDWR) || 3261 (un->un_read_only == WORM) && (un->un_oflags & FWRITE)) { 3262 if (un->un_dp->options & ST_REEL) { 3263 un->un_fmneeded = 2; 3264 } else { 3265 un->un_fmneeded = 1; 3266 } 3267 } else { 3268 un->un_fmneeded = 0; 3269 } 3270 3271 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 3272 "fmneeded = %x\n", un->un_fmneeded); 3273 3274 /* 3275 * Make sure the density can be selected correctly. 3276 * If WORM can only write at the append point which in most cases 3277 * isn't BOP. st_determine_density() with a B_WRITE only attempts 3278 * to set and try densities if a BOP. 3279 */ 3280 if (st_determine_density(un, 3281 un->un_read_only == RDWR ? B_WRITE : B_READ)) { 3282 un->un_status = KEY_ILLEGAL_REQUEST; 3283 un->un_laststate = un->un_state; 3284 un->un_state = ST_STATE_CLOSED; 3285 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 3286 "st_tape_init: EIO can't determine density\n"); 3287 rval = EIO; 3288 goto exit; 3289 } 3290 3291 /* 3292 * Destroy the knowledge that we have 'determined' 3293 * density so that a later read at BOT comes along 3294 * does the right density determination. 3295 */ 3296 3297 un->un_density_known = 0; 3298 3299 3300 /* 3301 * Okay, the tape is loaded and either at BOT or somewhere past. 3302 * Mark the state such that any I/O or tape space operations 3303 * will get/set the right density, etc.. 3304 */ 3305 un->un_laststate = un->un_state; 3306 un->un_lastop = ST_OP_NIL; 3307 un->un_mediastate = MTIO_INSERTED; 3308 cv_broadcast(&un->un_state_cv); 3309 3310 /* 3311 * Set test append flag if writing. 3312 * First write must check that tape is positioned correctly. 3313 */ 3314 un->un_test_append = (un->un_oflags & FWRITE); 3315 3316 /* 3317 * if there are pending unit attention flags. 3318 * Check that the media has not changed. 3319 */ 3320 if (un->un_unit_attention_flags) { 3321 rval = st_get_media_identification(un, st_uscsi_cmd); 3322 if (rval != 0 && rval != EACCES) { 3323 rval = EIO; 3324 } 3325 un->un_unit_attention_flags = 0; 3326 } 3327 3328 exit: 3329 un->un_err_resid = 0; 3330 un->un_last_resid = 0; 3331 un->un_last_count = 0; 3332 3333 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 3334 "st_tape_init: return val = %x\n", rval); 3335 return (rval); 3336 3337 } 3338 3339 3340 3341 /* ARGSUSED */ 3342 static int 3343 st_close(dev_t dev, int flag, int otyp, cred_t *cred_p) 3344 { 3345 int err = 0; 3346 int count, last_state; 3347 minor_t minor = getminor(dev); 3348 #ifdef __x86 3349 struct contig_mem *cp, *cp_temp; 3350 #endif 3351 3352 GET_SOFT_STATE(dev); 3353 3354 ST_ENTR(ST_DEVINFO, st_close); 3355 3356 /* 3357 * wait till all cmds in the pipeline have been completed 3358 */ 3359 mutex_enter(ST_MUTEX); 3360 3361 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 3362 "st_close(dev = 0x%lx, flag = %d, otyp = %d)\n", dev, flag, otyp); 3363 3364 st_wait_for_io(un); 3365 3366 /* turn off persistent errors on close, as we want close to succeed */ 3367 st_turn_pe_off(un); 3368 3369 /* 3370 * set state to indicate that we are in process of closing 3371 */ 3372 last_state = un->un_laststate = un->un_state; 3373 un->un_state = ST_STATE_CLOSING; 3374 3375 ST_POS(ST_DEVINFO, "st_close1:", &un->un_pos); 3376 3377 /* 3378 * BSD behavior: 3379 * a close always causes a silent span to the next file if we've hit 3380 * an EOF (but not yet read across it). 3381 */ 3382 if ((minor & MT_BSD) && (un->un_pos.eof == ST_EOF)) { 3383 if (un->un_pos.pmode != invalid) { 3384 un->un_pos.fileno++; 3385 un->un_pos.blkno = 0; 3386 } 3387 un->un_pos.eof = ST_NO_EOF; 3388 } 3389 3390 /* 3391 * SVR4 behavior for skipping to next file: 3392 * 3393 * If we have not seen a filemark, space to the next file 3394 * 3395 * If we have already seen the filemark we are physically in the next 3396 * file and we only increment the filenumber 3397 */ 3398 if (((minor & (MT_BSD | MT_NOREWIND)) == MT_NOREWIND) && 3399 (flag & FREAD) && /* reading or at least asked to */ 3400 (un->un_mediastate == MTIO_INSERTED) && /* tape loaded */ 3401 (un->un_pos.pmode != invalid) && /* XXX position known */ 3402 ((un->un_pos.blkno != 0) && /* inside a file */ 3403 (un->un_lastop != ST_OP_WRITE) && /* Didn't just write */ 3404 (un->un_lastop != ST_OP_WEOF))) { /* or write filemarks */ 3405 switch (un->un_pos.eof) { 3406 case ST_NO_EOF: 3407 /* 3408 * if we were reading and did not read the complete file 3409 * skip to the next file, leaving the tape correctly 3410 * positioned to read the first record of the next file 3411 * Check first for REEL if we are at EOT by trying to 3412 * read a block 3413 */ 3414 if ((un->un_dp->options & ST_REEL) && 3415 (!(un->un_dp->options & ST_READ_IGNORE_EOFS)) && 3416 (un->un_pos.blkno == 0)) { 3417 if (st_cmd(un, SCMD_SPACE, Blk(1), SYNC_CMD)) { 3418 ST_DEBUG2(ST_DEVINFO, st_label, 3419 SCSI_DEBUG, 3420 "st_close : EIO can't space\n"); 3421 err = EIO; 3422 goto error_out; 3423 } 3424 if (un->un_pos.eof >= ST_EOF_PENDING) { 3425 un->un_pos.eof = ST_EOT_PENDING; 3426 un->un_pos.fileno += 1; 3427 un->un_pos.blkno = 0; 3428 break; 3429 } 3430 } 3431 if (st_cmd(un, SCMD_SPACE, Fmk(1), SYNC_CMD)) { 3432 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 3433 "st_close: EIO can't space #2\n"); 3434 err = EIO; 3435 goto error_out; 3436 } else { 3437 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 3438 "st_close2: fileno=%x,blkno=%x,eof=%x\n", 3439 un->un_pos.fileno, un->un_pos.blkno, 3440 un->un_pos.eof); 3441 un->un_pos.eof = ST_NO_EOF; 3442 } 3443 break; 3444 3445 case ST_EOF_PENDING: 3446 case ST_EOF: 3447 un->un_pos.fileno += 1; 3448 un->un_pos.lgclblkno += 1; 3449 un->un_pos.blkno = 0; 3450 un->un_pos.eof = ST_NO_EOF; 3451 break; 3452 3453 case ST_EOT: 3454 case ST_EOT_PENDING: 3455 case ST_EOM: 3456 /* nothing to do */ 3457 break; 3458 default: 3459 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 3460 "Undefined state 0x%x", un->un_pos.eof); 3461 3462 } 3463 } 3464 3465 3466 /* 3467 * For performance reasons (HP 88780), the driver should 3468 * postpone writing the second tape mark until just before a file 3469 * positioning ioctl is issued (e.g., rewind). This means that 3470 * the user must not manually rewind the tape because the tape will 3471 * be missing the second tape mark which marks EOM. 3472 * However, this small performance improvement is not worth the risk. 3473 */ 3474 3475 /* 3476 * We need to back up over the filemark we inadvertently popped 3477 * over doing a read in between the two filemarks that constitute 3478 * logical eot for 1/2" tapes. Note that ST_EOT_PENDING is only 3479 * set while reading. 3480 * 3481 * If we happen to be at physical eot (ST_EOM) (writing case), 3482 * the writing of filemark(s) will clear the ST_EOM state, which 3483 * we don't want, so we save this state and restore it later. 3484 */ 3485 3486 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 3487 "flag=%x, fmneeded=%x, lastop=%x, eof=%x\n", 3488 flag, un->un_fmneeded, un->un_lastop, un->un_pos.eof); 3489 3490 if (un->un_pos.eof == ST_EOT_PENDING) { 3491 if (minor & MT_NOREWIND) { 3492 if (st_cmd(un, SCMD_SPACE, Fmk(-1), SYNC_CMD)) { 3493 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 3494 "st_close: EIO can't space #3\n"); 3495 err = EIO; 3496 goto error_out; 3497 } else { 3498 un->un_pos.blkno = 0; 3499 un->un_pos.eof = ST_EOT; 3500 } 3501 } else { 3502 un->un_pos.eof = ST_NO_EOF; 3503 } 3504 3505 /* 3506 * Do we need to write a file mark? 3507 * 3508 * only write filemarks if there are fmks to be written and 3509 * - open for write (possibly read/write) 3510 * - the last operation was a write 3511 * or: 3512 * - opened for wronly 3513 * - no data was written 3514 */ 3515 } else if ((un->un_pos.pmode != invalid) && 3516 (un->un_fmneeded > 0) && 3517 (((flag & FWRITE) && 3518 ((un->un_lastop == ST_OP_WRITE)||(un->un_lastop == ST_OP_WEOF))) || 3519 ((flag == FWRITE) && (un->un_lastop == ST_OP_NIL)))) { 3520 3521 /* save ST_EOM state */ 3522 int was_at_eom = (un->un_pos.eof == ST_EOM) ? 1 : 0; 3523 3524 /* 3525 * Note that we will write a filemark if we had opened 3526 * the tape write only and no data was written, thus 3527 * creating a null file. 3528 * 3529 * If the user already wrote one, we only have to write 1 more. 3530 * If they wrote two, we don't have to write any. 3531 */ 3532 3533 count = un->un_fmneeded; 3534 if (count > 0) { 3535 if (st_cmd(un, SCMD_WRITE_FILE_MARK, count, SYNC_CMD)) { 3536 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 3537 "st_close : EIO can't wfm\n"); 3538 err = EIO; 3539 goto error_out; 3540 } 3541 if ((un->un_dp->options & ST_REEL) && 3542 (minor & MT_NOREWIND)) { 3543 if (st_cmd(un, SCMD_SPACE, Fmk(-1), SYNC_CMD)) { 3544 ST_DEBUG2(ST_DEVINFO, st_label, 3545 SCSI_DEBUG, 3546 "st_close : EIO space fmk(-1)\n"); 3547 err = EIO; 3548 goto error_out; 3549 } 3550 un->un_pos.eof = ST_NO_EOF; 3551 /* fix up block number */ 3552 un->un_pos.blkno = 0; 3553 } 3554 } 3555 3556 /* 3557 * If we aren't going to be rewinding, and we were at 3558 * physical eot, restore the state that indicates we 3559 * are at physical eot. Once you have reached physical 3560 * eot, and you close the tape, the only thing you can 3561 * do on the next open is to rewind. Access to trailer 3562 * records is only allowed without closing the device. 3563 */ 3564 if ((minor & MT_NOREWIND) == 0 && was_at_eom) { 3565 un->un_pos.eof = ST_EOM; 3566 } 3567 } 3568 3569 /* 3570 * report soft errors if enabled and available, if we never accessed 3571 * the drive, don't get errors. This will prevent some DAT error 3572 * messages upon LOG SENSE. 3573 */ 3574 if (st_report_soft_errors_on_close && 3575 (un->un_dp->options & ST_SOFT_ERROR_REPORTING) && 3576 (last_state != ST_STATE_OFFLINE)) { 3577 if (st_report_soft_errors(dev, flag)) { 3578 err = EIO; 3579 goto error_out; 3580 } 3581 } 3582 3583 3584 /* 3585 * Do we need to rewind? Can we rewind? 3586 */ 3587 if ((minor & MT_NOREWIND) == 0 && 3588 un->un_pos.pmode != invalid && err == 0) { 3589 /* 3590 * We'd like to rewind with the 3591 * 'immediate' bit set, but this 3592 * causes problems on some drives 3593 * where subsequent opens get a 3594 * 'NOT READY' error condition 3595 * back while the tape is rewinding, 3596 * which is impossible to distinguish 3597 * from the condition of 'no tape loaded'. 3598 * 3599 * Also, for some targets, if you disconnect 3600 * with the 'immediate' bit set, you don't 3601 * actually return right away, i.e., the 3602 * target ignores your request for immediate 3603 * return. 3604 * 3605 * Instead, we'll fire off an async rewind 3606 * command. We'll mark the device as closed, 3607 * and any subsequent open will stall on 3608 * the first TEST_UNIT_READY until the rewind 3609 * completes. 3610 */ 3611 3612 /* 3613 * Used to be if reserve was not supported we'd send an 3614 * asynchronious rewind. Comments above may be slightly invalid 3615 * as the immediate bit was never set. Doing an immedate rewind 3616 * makes sense, I think fixes to not ready status might handle 3617 * the problems described above. 3618 */ 3619 if (un->un_sd->sd_inq->inq_ansi < 2) { 3620 if (st_cmd(un, SCMD_REWIND, 0, SYNC_CMD)) { 3621 err = EIO; 3622 } 3623 } else { 3624 /* flush data for older drives per scsi spec. */ 3625 if (st_cmd(un, SCMD_WRITE_FILE_MARK, 0, SYNC_CMD)) { 3626 err = EIO; 3627 } else if (st_cmd(un, SCMD_REWIND, 1, ASYNC_CMD)) { 3628 err = EIO; 3629 } 3630 } 3631 /* 3632 * Setting positions invalid in case the rewind doesn't 3633 * happen. Drives don't like to rewind if resets happen 3634 * they will tend to move back to where the rewind was 3635 * issued if a reset or something happens so that if a 3636 * write happens the data doesn't get clobbered. 3637 * 3638 * Not a big deal if the position is invalid when the 3639 * open occures it will do a read position. 3640 */ 3641 un->un_pos.pmode = invalid; 3642 un->un_running.pmode = invalid; 3643 3644 if (err == EIO) { 3645 goto error_out; 3646 } 3647 } 3648 3649 /* 3650 * eject tape if necessary 3651 */ 3652 if (un->un_eject_tape_on_failure) { 3653 un->un_eject_tape_on_failure = 0; 3654 if (st_cmd(un, SCMD_LOAD, LD_UNLOAD, SYNC_CMD)) { 3655 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 3656 "st_close : can't unload tape\n"); 3657 err = EIO; 3658 goto error_out; 3659 } else { 3660 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 3661 "st_close : tape unloaded \n"); 3662 un->un_pos.eof = ST_NO_EOF; 3663 un->un_mediastate = MTIO_EJECTED; 3664 } 3665 } 3666 /* 3667 * Release the tape unit, if default reserve/release 3668 * behaviour. 3669 */ 3670 if ((un->un_rsvd_status & 3671 (ST_RESERVE | ST_PRESERVE_RESERVE)) == ST_RESERVE) { 3672 (void) st_reserve_release(un, ST_RELEASE, st_uscsi_cmd); 3673 } 3674 error_out: 3675 /* 3676 * clear up state 3677 */ 3678 un->un_laststate = un->un_state; 3679 un->un_state = ST_STATE_CLOSED; 3680 un->un_lastop = ST_OP_NIL; 3681 un->un_throttle = 1; /* assume one request at time, for now */ 3682 un->un_retry_ct = 0; 3683 un->un_errno = 0; 3684 un->un_swr_token = (opaque_t)NULL; 3685 un->un_rsvd_status &= ~(ST_INIT_RESERVE); 3686 3687 /* Restore the options to the init time settings */ 3688 if (un->un_init_options & ST_READ_IGNORE_ILI) { 3689 un->un_dp->options |= ST_READ_IGNORE_ILI; 3690 } else { 3691 un->un_dp->options &= ~ST_READ_IGNORE_ILI; 3692 } 3693 3694 if (un->un_init_options & ST_READ_IGNORE_EOFS) { 3695 un->un_dp->options |= ST_READ_IGNORE_EOFS; 3696 } else { 3697 un->un_dp->options &= ~ST_READ_IGNORE_EOFS; 3698 } 3699 3700 if (un->un_init_options & ST_SHORT_FILEMARKS) { 3701 un->un_dp->options |= ST_SHORT_FILEMARKS; 3702 } else { 3703 un->un_dp->options &= ~ST_SHORT_FILEMARKS; 3704 } 3705 3706 ASSERT(mutex_owned(ST_MUTEX)); 3707 3708 /* 3709 * Signal anyone awaiting a close operation to complete. 3710 */ 3711 cv_signal(&un->un_clscv); 3712 3713 /* 3714 * any kind of error on closing causes all state to be tossed 3715 */ 3716 if (err && un->un_status != KEY_ILLEGAL_REQUEST) { 3717 /* 3718 * note that st_intr has already set 3719 * un_pos.pmode to invalid. 3720 */ 3721 un->un_density_known = 0; 3722 } 3723 3724 #ifdef __x86 3725 /* 3726 * free any contiguous mem alloc'ed for big block I/O 3727 */ 3728 cp = un->un_contig_mem; 3729 while (cp) { 3730 if (cp->cm_addr) { 3731 ddi_dma_mem_free(&cp->cm_acc_hdl); 3732 } 3733 cp_temp = cp; 3734 cp = cp->cm_next; 3735 kmem_free(cp_temp, 3736 sizeof (struct contig_mem) + biosize()); 3737 } 3738 un->un_contig_mem_total_num = 0; 3739 un->un_contig_mem_available_num = 0; 3740 un->un_contig_mem = NULL; 3741 un->un_max_contig_mem_len = 0; 3742 #endif 3743 3744 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 3745 "st_close3: return val = %x, fileno=%x, blkno=%x, eof=%x\n", 3746 err, un->un_pos.fileno, un->un_pos.blkno, un->un_pos.eof); 3747 3748 mutex_exit(ST_MUTEX); 3749 return (err); 3750 } 3751 3752 /* 3753 * These routines perform raw i/o operations. 3754 */ 3755 3756 /* ARGSUSED2 */ 3757 static int 3758 st_aread(dev_t dev, struct aio_req *aio, cred_t *cred_p) 3759 { 3760 #ifdef STDEBUG 3761 GET_SOFT_STATE(dev); 3762 ST_ENTR(ST_DEVINFO, st_aread); 3763 #endif 3764 return (st_arw(dev, aio, B_READ)); 3765 } 3766 3767 3768 /* ARGSUSED2 */ 3769 static int 3770 st_awrite(dev_t dev, struct aio_req *aio, cred_t *cred_p) 3771 { 3772 #ifdef STDEBUG 3773 GET_SOFT_STATE(dev); 3774 ST_ENTR(ST_DEVINFO, st_awrite); 3775 #endif 3776 return (st_arw(dev, aio, B_WRITE)); 3777 } 3778 3779 3780 3781 /* ARGSUSED */ 3782 static int 3783 st_read(dev_t dev, struct uio *uiop, cred_t *cred_p) 3784 { 3785 #ifdef STDEBUG 3786 GET_SOFT_STATE(dev); 3787 ST_ENTR(ST_DEVINFO, st_read); 3788 #endif 3789 return (st_rw(dev, uiop, B_READ)); 3790 } 3791 3792 /* ARGSUSED */ 3793 static int 3794 st_write(dev_t dev, struct uio *uiop, cred_t *cred_p) 3795 { 3796 #ifdef STDEBUG 3797 GET_SOFT_STATE(dev); 3798 ST_ENTR(ST_DEVINFO, st_write); 3799 #endif 3800 return (st_rw(dev, uiop, B_WRITE)); 3801 } 3802 3803 /* 3804 * Due to historical reasons, old limits are: For variable-length devices: 3805 * if greater than 64KB - 1 (ST_MAXRECSIZE_VARIABLE), block into 64 KB - 2 3806 * ST_MAXRECSIZE_VARIABLE_LIMIT) requests; otherwise, 3807 * (let it through unmodified. For fixed-length record devices: 3808 * 63K (ST_MAXRECSIZE_FIXED) is max (default minphys). 3809 * 3810 * The new limits used are un_maxdma (retrieved using scsi_ifgetcap() 3811 * from the HBA) and un_maxbsize (retrieved by sending SCMD_READ_BLKLIM 3812 * command to the drive). 3813 * 3814 */ 3815 static void 3816 st_minphys(struct buf *bp) 3817 { 3818 struct scsi_tape *un; 3819 3820 un = ddi_get_soft_state(st_state, MTUNIT(bp->b_edev)); 3821 3822 ST_FUNC(ST_DEVINFO, st_minphys); 3823 3824 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 3825 "st_minphys(bp = 0x%p): b_bcount = 0x%lx\n", (void *)bp, 3826 bp->b_bcount); 3827 3828 if (un->un_allow_large_xfer) { 3829 3830 /* 3831 * check un_maxbsize for variable length devices only 3832 */ 3833 if (un->un_bsize == 0 && bp->b_bcount > un->un_maxbsize) { 3834 bp->b_bcount = un->un_maxbsize; 3835 } 3836 /* 3837 * can't go more that HBA maxdma limit in either fixed-length 3838 * or variable-length tape drives. 3839 */ 3840 if (bp->b_bcount > un->un_maxdma) { 3841 bp->b_bcount = un->un_maxdma; 3842 } 3843 } else { 3844 3845 /* 3846 * use old fixed limits 3847 */ 3848 if (un->un_bsize == 0) { 3849 if (bp->b_bcount > ST_MAXRECSIZE_VARIABLE) { 3850 bp->b_bcount = ST_MAXRECSIZE_VARIABLE_LIMIT; 3851 } 3852 } else { 3853 if (bp->b_bcount > ST_MAXRECSIZE_FIXED) { 3854 bp->b_bcount = ST_MAXRECSIZE_FIXED; 3855 } 3856 } 3857 } 3858 3859 /* 3860 * For regular raw I/O and Fixed Block length devices, make sure 3861 * the adjusted block count is a whole multiple of the device 3862 * block size. 3863 */ 3864 if (bp != un->un_sbufp && un->un_bsize) { 3865 bp->b_bcount -= (bp->b_bcount % un->un_bsize); 3866 } 3867 } 3868 3869 static int 3870 st_rw(dev_t dev, struct uio *uio, int flag) 3871 { 3872 int rval = 0; 3873 long len; 3874 3875 GET_SOFT_STATE(dev); 3876 3877 ST_FUNC(ST_DEVINFO, st_rw); 3878 3879 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 3880 "st_rw(dev = 0x%lx, flag = %s)\n", dev, 3881 (flag == B_READ ? rd_str: wr_str)); 3882 3883 /* get local copy of transfer length */ 3884 len = uio->uio_iov->iov_len; 3885 3886 mutex_enter(ST_MUTEX); 3887 3888 /* 3889 * Clear error entry stack 3890 */ 3891 st_empty_error_stack(un); 3892 3893 /* 3894 * If in fixed block size mode and requested read or write 3895 * is not an even multiple of that block size. 3896 */ 3897 if ((un->un_bsize != 0) && (len % un->un_bsize != 0)) { 3898 scsi_log(ST_DEVINFO, st_label, CE_WARN, 3899 "%s: not modulo %d block size\n", 3900 (flag == B_WRITE) ? wr_str : rd_str, un->un_bsize); 3901 rval = EINVAL; 3902 } 3903 3904 /* If device has set granularity in the READ_BLKLIM we honor it. */ 3905 if ((un->un_data_mod != 0) && (len % un->un_data_mod != 0)) { 3906 scsi_log(ST_DEVINFO, st_label, CE_WARN, 3907 "%s: not modulo %d device granularity\n", 3908 (flag == B_WRITE) ? wr_str : rd_str, un->un_data_mod); 3909 rval = EINVAL; 3910 } 3911 3912 if (st_recov_sz != sizeof (recov_info) && un->un_multipath) { 3913 scsi_log(ST_DEVINFO, st_label, CE_WARN, mp_misconf); 3914 rval = EFAULT; 3915 } 3916 3917 if (rval != 0) { 3918 un->un_errno = rval; 3919 mutex_exit(ST_MUTEX); 3920 return (rval); 3921 } 3922 3923 /* 3924 * Reset this so it can be set if Berkeley and read over a filemark. 3925 */ 3926 un->un_silent_skip = 0; 3927 mutex_exit(ST_MUTEX); 3928 3929 len = uio->uio_resid; 3930 3931 rval = physio(st_queued_strategy, (struct buf *)NULL, 3932 dev, flag, st_minphys, uio); 3933 /* 3934 * if we have hit logical EOT during this xfer and there is not a 3935 * full residue, then set eof back to ST_EOM to make sure that 3936 * the user will see at least one zero write 3937 * after this short write 3938 */ 3939 mutex_enter(ST_MUTEX); 3940 if (un->un_pos.eof > ST_NO_EOF) { 3941 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 3942 "eof=%d resid=%lx\n", un->un_pos.eof, uio->uio_resid); 3943 } 3944 if (un->un_pos.eof >= ST_EOM && (flag == B_WRITE)) { 3945 if ((uio->uio_resid != len) && (uio->uio_resid != 0)) { 3946 un->un_pos.eof = ST_EOM; 3947 } else if (uio->uio_resid == len) { 3948 un->un_pos.eof = ST_NO_EOF; 3949 } 3950 } 3951 3952 if (un->un_silent_skip && uio->uio_resid != len) { 3953 un->un_pos.eof = ST_EOF; 3954 un->un_pos.blkno = un->un_save_blkno; 3955 un->un_pos.fileno--; 3956 } 3957 3958 un->un_errno = rval; 3959 3960 mutex_exit(ST_MUTEX); 3961 3962 return (rval); 3963 } 3964 3965 static int 3966 st_arw(dev_t dev, struct aio_req *aio, int flag) 3967 { 3968 struct uio *uio = aio->aio_uio; 3969 int rval = 0; 3970 long len; 3971 3972 GET_SOFT_STATE(dev); 3973 3974 ST_FUNC(ST_DEVINFO, st_arw); 3975 3976 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 3977 "st_arw(dev = 0x%lx, flag = %s)\n", dev, 3978 (flag == B_READ ? rd_str: wr_str)); 3979 3980 /* get local copy of transfer length */ 3981 len = uio->uio_iov->iov_len; 3982 3983 mutex_enter(ST_MUTEX); 3984 3985 /* 3986 * If in fixed block size mode and requested read or write 3987 * is not an even multiple of that block size. 3988 */ 3989 if ((un->un_bsize != 0) && (len % un->un_bsize != 0)) { 3990 scsi_log(ST_DEVINFO, st_label, CE_WARN, 3991 "%s: not modulo %d block size\n", 3992 (flag == B_WRITE) ? wr_str : rd_str, un->un_bsize); 3993 rval = EINVAL; 3994 } 3995 3996 /* If device has set granularity in the READ_BLKLIM we honor it. */ 3997 if ((un->un_data_mod != 0) && (len % un->un_data_mod != 0)) { 3998 scsi_log(ST_DEVINFO, st_label, CE_WARN, 3999 "%s: not modulo %d device granularity\n", 4000 (flag == B_WRITE) ? wr_str : rd_str, un->un_data_mod); 4001 rval = EINVAL; 4002 } 4003 4004 if (st_recov_sz != sizeof (recov_info) && un->un_multipath) { 4005 scsi_log(ST_DEVINFO, st_label, CE_WARN, mp_misconf); 4006 rval = EFAULT; 4007 } 4008 4009 if (rval != 0) { 4010 un->un_errno = rval; 4011 mutex_exit(ST_MUTEX); 4012 return (rval); 4013 } 4014 4015 mutex_exit(ST_MUTEX); 4016 4017 len = uio->uio_resid; 4018 4019 rval = 4020 aphysio(st_queued_strategy, anocancel, dev, flag, st_minphys, aio); 4021 4022 /* 4023 * if we have hit logical EOT during this xfer and there is not a 4024 * full residue, then set eof back to ST_EOM to make sure that 4025 * the user will see at least one zero write 4026 * after this short write 4027 * 4028 * we keep this here just in case the application is not using 4029 * persistent errors 4030 */ 4031 mutex_enter(ST_MUTEX); 4032 if (un->un_pos.eof > ST_NO_EOF) { 4033 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4034 "eof=%d resid=%lx\n", un->un_pos.eof, uio->uio_resid); 4035 } 4036 if (un->un_pos.eof >= ST_EOM && (flag == B_WRITE)) { 4037 if ((uio->uio_resid != len) && (uio->uio_resid != 0)) { 4038 un->un_pos.eof = ST_EOM; 4039 } else if (uio->uio_resid == len && 4040 !(un->un_persistence && un->un_persist_errors)) { 4041 un->un_pos.eof = ST_NO_EOF; 4042 } 4043 } 4044 un->un_errno = rval; 4045 mutex_exit(ST_MUTEX); 4046 4047 return (rval); 4048 } 4049 4050 4051 4052 static int 4053 st_queued_strategy(buf_t *bp) 4054 { 4055 struct scsi_tape *un; 4056 char reading = bp->b_flags & B_READ; 4057 int wasopening = 0; 4058 4059 /* 4060 * validate arguments 4061 */ 4062 un = ddi_get_soft_state(st_state, MTUNIT(bp->b_edev)); 4063 if (un == NULL) { 4064 bp->b_resid = bp->b_bcount; 4065 bioerror(bp, ENXIO); 4066 ST_DEBUG6(NULL, st_label, SCSI_DEBUG, 4067 "st_queued_strategy: ENXIO error exit\n"); 4068 biodone(bp); 4069 return (0); 4070 } 4071 4072 ST_ENTR(ST_DEVINFO, st_queued_strategy); 4073 4074 mutex_enter(ST_MUTEX); 4075 4076 while (un->un_pwr_mgmt == ST_PWR_SUSPENDED) { 4077 cv_wait(&un->un_suspend_cv, ST_MUTEX); 4078 } 4079 4080 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 4081 "st_queued_strategy(): bcount=0x%lx, fileno=%d, blkno=%x, eof=%d\n", 4082 bp->b_bcount, un->un_pos.fileno, un->un_pos.blkno, un->un_pos.eof); 4083 4084 /* 4085 * If persistent errors have been flagged, just nix this one. We wait 4086 * for any outstanding I/O's below, so we will be in order. 4087 */ 4088 if (un->un_persistence && un->un_persist_errors) { 4089 goto exit; 4090 } 4091 4092 /* 4093 * If last command was non queued, wait till it finishes. 4094 */ 4095 while (un->un_sbuf_busy) { 4096 cv_wait(&un->un_sbuf_cv, ST_MUTEX); 4097 /* woke up because of an error */ 4098 if (un->un_persistence && un->un_persist_errors) { 4099 goto exit; 4100 } 4101 } 4102 4103 /* 4104 * s_buf and recovery commands shouldn't come here. 4105 */ 4106 ASSERT(bp != un->un_recov_buf); 4107 ASSERT(bp != un->un_sbufp); 4108 4109 /* 4110 * If we haven't done/checked reservation on the tape unit 4111 * do it now. 4112 */ 4113 if ((un->un_rsvd_status & 4114 (ST_RESERVE | ST_APPLICATION_RESERVATIONS)) == 0) { 4115 if ((un->un_dp->options & ST_NO_RESERVE_RELEASE) == 0) { 4116 if (st_reserve_release(un, ST_RESERVE, st_uscsi_cmd)) { 4117 st_bioerror(bp, un->un_errno); 4118 goto exit; 4119 } 4120 } else if (un->un_state == ST_STATE_OPEN_PENDING_IO) { 4121 /* 4122 * Enter here to restore position for possible 4123 * resets when the device was closed and opened 4124 * in O_NDELAY mode subsequently 4125 */ 4126 un->un_state = ST_STATE_INITIALIZING; 4127 (void) st_cmd(un, SCMD_TEST_UNIT_READY, 4128 0, SYNC_CMD); 4129 un->un_state = ST_STATE_OPEN_PENDING_IO; 4130 } 4131 un->un_rsvd_status |= ST_INIT_RESERVE; 4132 } 4133 4134 /* 4135 * If we are offline, we have to initialize everything first. 4136 * This is to handle either when opened with O_NDELAY, or 4137 * we just got a new tape in the drive, after an offline. 4138 * We don't observe O_NDELAY past the open, 4139 * as it will not make sense for tapes. 4140 */ 4141 if (un->un_state == ST_STATE_OFFLINE || un->un_restore_pos) { 4142 /* 4143 * reset state to avoid recursion 4144 */ 4145 un->un_laststate = un->un_state; 4146 un->un_state = ST_STATE_INITIALIZING; 4147 if (st_tape_init(un)) { 4148 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 4149 "stioctl : OFFLINE init failure "); 4150 un->un_state = ST_STATE_OFFLINE; 4151 un->un_pos.pmode = invalid; 4152 goto b_done_err; 4153 } 4154 /* un_restore_pos make invalid */ 4155 un->un_state = ST_STATE_OPEN_PENDING_IO; 4156 un->un_restore_pos = 0; 4157 } 4158 /* 4159 * Check for legal operations 4160 */ 4161 if (un->un_pos.pmode == invalid) { 4162 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4163 "strategy with un->un_pos.pmode invalid\n"); 4164 goto b_done_err; 4165 } 4166 4167 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4168 "st_queued_strategy(): regular io\n"); 4169 4170 /* 4171 * Process this first. If we were reading, and we're pending 4172 * logical eot, that means we've bumped one file mark too far. 4173 */ 4174 4175 /* 4176 * Recursion warning: st_cmd will route back through here. 4177 * Not anymore st_cmd will go through st_strategy()! 4178 */ 4179 if (un->un_pos.eof == ST_EOT_PENDING) { 4180 if (st_cmd(un, SCMD_SPACE, Fmk(-1), SYNC_CMD)) { 4181 un->un_pos.pmode = invalid; 4182 un->un_density_known = 0; 4183 goto b_done_err; 4184 } 4185 un->un_pos.blkno = 0; /* fix up block number.. */ 4186 un->un_pos.eof = ST_EOT; 4187 } 4188 4189 /* 4190 * If we are in the process of opening, we may have to 4191 * determine/set the correct density. We also may have 4192 * to do a test_append (if QIC) to see whether we are 4193 * in a position to append to the end of the tape. 4194 * 4195 * If we're already at logical eot, we transition 4196 * to ST_NO_EOF. If we're at physical eot, we punt 4197 * to the switch statement below to handle. 4198 */ 4199 if ((un->un_state == ST_STATE_OPEN_PENDING_IO) || 4200 (un->un_test_append && (un->un_dp->options & ST_QIC))) { 4201 4202 if (un->un_state == ST_STATE_OPEN_PENDING_IO) { 4203 if (st_determine_density(un, (int)reading)) { 4204 goto b_done_err; 4205 } 4206 } 4207 4208 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4209 "pending_io@fileno %d rw %d qic %d eof %d\n", 4210 un->un_pos.fileno, (int)reading, 4211 (un->un_dp->options & ST_QIC) ? 1 : 0, 4212 un->un_pos.eof); 4213 4214 if (!reading && un->un_pos.eof != ST_EOM) { 4215 if (un->un_pos.eof == ST_EOT) { 4216 un->un_pos.eof = ST_NO_EOF; 4217 } else if (un->un_pos.pmode != invalid && 4218 (un->un_dp->options & ST_QIC)) { 4219 /* 4220 * st_test_append() will do it all 4221 */ 4222 st_test_append(bp); 4223 mutex_exit(ST_MUTEX); 4224 return (0); 4225 } 4226 } 4227 if (un->un_state == ST_STATE_OPEN_PENDING_IO) { 4228 wasopening = 1; 4229 } 4230 un->un_laststate = un->un_state; 4231 un->un_state = ST_STATE_OPEN; 4232 } 4233 4234 4235 /* 4236 * Process rest of END OF FILE and END OF TAPE conditions 4237 */ 4238 4239 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4240 "eof=%x, wasopening=%x\n", 4241 un->un_pos.eof, wasopening); 4242 4243 switch (un->un_pos.eof) { 4244 case ST_EOM: 4245 /* 4246 * This allows writes to proceed past physical 4247 * eot. We'll *really* be in trouble if the 4248 * user continues blindly writing data too 4249 * much past this point (unwind the tape). 4250 * Physical eot really means 'early warning 4251 * eot' in this context. 4252 * 4253 * Every other write from now on will succeed 4254 * (if sufficient tape left). 4255 * This write will return with resid == count 4256 * but the next one should be successful 4257 * 4258 * Note that we only transition to logical EOT 4259 * if the last state wasn't the OPENING state. 4260 * We explicitly prohibit running up to physical 4261 * eot, closing the device, and then re-opening 4262 * to proceed. Trailer records may only be gotten 4263 * at by keeping the tape open after hitting eot. 4264 * 4265 * Also note that ST_EOM cannot be set by reading- 4266 * this can only be set during writing. Reading 4267 * up to the end of the tape gets a blank check 4268 * or a double-filemark indication (ST_EOT_PENDING), 4269 * and we prohibit reading after that point. 4270 * 4271 */ 4272 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, "EOM\n"); 4273 if (wasopening == 0) { 4274 /* 4275 * this allows st_rw() to reset it back to 4276 * will see a zero write 4277 */ 4278 un->un_pos.eof = ST_WRITE_AFTER_EOM; 4279 } 4280 un->un_status = SUN_KEY_EOT; 4281 goto b_done; 4282 4283 case ST_WRITE_AFTER_EOM: 4284 case ST_EOT: 4285 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, "EOT\n"); 4286 un->un_status = SUN_KEY_EOT; 4287 if (SVR4_BEHAVIOR && reading) { 4288 goto b_done_err; 4289 } 4290 4291 if (reading) { 4292 goto b_done; 4293 } 4294 un->un_pos.eof = ST_NO_EOF; 4295 break; 4296 4297 case ST_EOF_PENDING: 4298 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4299 "EOF PENDING\n"); 4300 un->un_status = SUN_KEY_EOF; 4301 if (SVR4_BEHAVIOR) { 4302 un->un_pos.eof = ST_EOF; 4303 goto b_done; 4304 } 4305 /* FALLTHROUGH */ 4306 case ST_EOF: 4307 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, "EOF\n"); 4308 un->un_status = SUN_KEY_EOF; 4309 if (SVR4_BEHAVIOR) { 4310 goto b_done_err; 4311 } 4312 4313 if (BSD_BEHAVIOR) { 4314 un->un_pos.eof = ST_NO_EOF; 4315 un->un_pos.fileno += 1; 4316 un->un_pos.blkno = 0; 4317 } 4318 4319 if (reading) { 4320 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4321 "now file %d (read)\n", 4322 un->un_pos.fileno); 4323 goto b_done; 4324 } 4325 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4326 "now file %d (write)\n", un->un_pos.fileno); 4327 break; 4328 default: 4329 un->un_status = 0; 4330 break; 4331 } 4332 4333 bp->b_flags &= ~(B_DONE); 4334 st_bioerror(bp, 0); 4335 bp->av_forw = NULL; 4336 bp->b_resid = 0; 4337 SET_BP_PKT(bp, 0); 4338 4339 4340 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4341 "st_queued_strategy: cmd=0x%p count=%ld resid=%ld flags=0x%x" 4342 " pkt=0x%p\n", 4343 (void *)bp->b_forw, bp->b_bcount, 4344 bp->b_resid, bp->b_flags, (void *)BP_PKT(bp)); 4345 4346 #ifdef __x86 4347 /* 4348 * We will replace bp with a new bp that can do big blk xfer 4349 * if the requested xfer size is bigger than un->un_maxdma_arch 4350 * 4351 * Also, we need to make sure that we're handling real I/O 4352 * by checking group 0/1 SCSI I/O commands, if needed 4353 */ 4354 if (bp->b_bcount > un->un_maxdma_arch && 4355 ((uchar_t)(uintptr_t)bp->b_forw == SCMD_READ || 4356 (uchar_t)(uintptr_t)bp->b_forw == SCMD_READ_G4 || 4357 (uchar_t)(uintptr_t)bp->b_forw == SCMD_WRITE || 4358 (uchar_t)(uintptr_t)bp->b_forw == SCMD_WRITE_G4)) { 4359 mutex_exit(ST_MUTEX); 4360 bp = st_get_bigblk_bp(bp); 4361 mutex_enter(ST_MUTEX); 4362 } 4363 #endif 4364 4365 /* put on wait queue */ 4366 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4367 "st_queued_strategy: un->un_quef = 0x%p, bp = 0x%p\n", 4368 (void *)un->un_quef, (void *)bp); 4369 4370 st_add_to_queue(&un->un_quef, &un->un_quel, un->un_quel, bp); 4371 4372 ST_DO_KSTATS(bp, kstat_waitq_enter); 4373 4374 st_start(un); 4375 4376 mutex_exit(ST_MUTEX); 4377 return (0); 4378 4379 b_done_err: 4380 st_bioerror(bp, EIO); 4381 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4382 "st_queued_strategy : EIO b_done_err\n"); 4383 4384 b_done: 4385 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4386 "st_queued_strategy: b_done\n"); 4387 4388 exit: 4389 /* 4390 * make sure no commands are outstanding or waiting before closing, 4391 * so we can guarantee order 4392 */ 4393 st_wait_for_io(un); 4394 un->un_err_resid = bp->b_resid = bp->b_bcount; 4395 4396 /* override errno here, if persistent errors were flagged */ 4397 if (un->un_persistence && un->un_persist_errors) 4398 bioerror(bp, un->un_errno); 4399 4400 mutex_exit(ST_MUTEX); 4401 4402 biodone(bp); 4403 ASSERT(mutex_owned(ST_MUTEX) == 0); 4404 return (0); 4405 } 4406 4407 4408 static int 4409 st_strategy(struct buf *bp) 4410 { 4411 struct scsi_tape *un; 4412 4413 /* 4414 * validate arguments 4415 */ 4416 un = ddi_get_soft_state(st_state, MTUNIT(bp->b_edev)); 4417 if (un == NULL) { 4418 bp->b_resid = bp->b_bcount; 4419 bioerror(bp, ENXIO); 4420 ST_DEBUG6(NULL, st_label, SCSI_DEBUG, 4421 "st_strategy: ENXIO error exit\n"); 4422 4423 biodone(bp); 4424 return (0); 4425 4426 } 4427 4428 ST_ENTR(ST_DEVINFO, st_strategy); 4429 4430 mutex_enter(ST_MUTEX); 4431 4432 while (un->un_pwr_mgmt == ST_PWR_SUSPENDED) { 4433 cv_wait(&un->un_suspend_cv, ST_MUTEX); 4434 } 4435 4436 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 4437 "st_strategy(): bcount=0x%lx, fileno=%d, blkno=%x, eof=%d\n", 4438 bp->b_bcount, un->un_pos.fileno, un->un_pos.blkno, un->un_pos.eof); 4439 4440 ASSERT((bp == un->un_recov_buf) || (bp == un->un_sbufp)); 4441 4442 bp->b_flags &= ~(B_DONE); 4443 st_bioerror(bp, 0); 4444 bp->av_forw = NULL; 4445 bp->b_resid = 0; 4446 SET_BP_PKT(bp, 0); 4447 4448 4449 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4450 "st_strategy: cmd=0x%x count=%ld resid=%ld flags=0x%x" 4451 " pkt=0x%p\n", 4452 (unsigned char)(uintptr_t)bp->b_forw, bp->b_bcount, 4453 bp->b_resid, bp->b_flags, (void *)BP_PKT(bp)); 4454 ST_DO_KSTATS(bp, kstat_waitq_enter); 4455 4456 st_start(un); 4457 4458 mutex_exit(ST_MUTEX); 4459 return (0); 4460 } 4461 4462 /* 4463 * this routine spaces forward over filemarks 4464 */ 4465 static int 4466 st_space_fmks(struct scsi_tape *un, int64_t count) 4467 { 4468 int rval = 0; 4469 4470 ST_FUNC(ST_DEVINFO, st_space_fmks); 4471 4472 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 4473 "st_space_fmks(dev = 0x%lx, count = %"PRIx64")\n", 4474 un->un_dev, count); 4475 4476 ASSERT(mutex_owned(ST_MUTEX)); 4477 4478 /* 4479 * the risk with doing only one space operation is that we 4480 * may accidentily jump in old data 4481 * the exabyte 8500 reading 8200 tapes cannot use KNOWS_EOD 4482 * because the 8200 does not append a marker; in order not to 4483 * sacrifice the fast file skip, we do a slow skip if the low 4484 * density device has been opened 4485 */ 4486 4487 if ((un->un_dp->options & ST_KNOWS_EOD) && 4488 !((un->un_dp->type == ST_TYPE_EXB8500 && 4489 MT_DENSITY(un->un_dev) == 0))) { 4490 if (st_cmd(un, SCMD_SPACE, Fmk(count), SYNC_CMD)) { 4491 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 4492 "space_fmks : EIO can't do space cmd #1\n"); 4493 rval = EIO; 4494 } 4495 } else { 4496 while (count > 0) { 4497 if (st_cmd(un, SCMD_SPACE, Fmk(1), SYNC_CMD)) { 4498 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 4499 "space_fmks : EIO can't do space cmd #2\n"); 4500 rval = EIO; 4501 break; 4502 } 4503 count -= 1; 4504 /* 4505 * read a block to see if we have reached 4506 * end of medium (double filemark for reel or 4507 * medium error for others) 4508 */ 4509 if (count > 0) { 4510 if (st_cmd(un, SCMD_SPACE, Blk(1), SYNC_CMD)) { 4511 ST_DEBUG2(ST_DEVINFO, st_label, 4512 SCSI_DEBUG, 4513 "space_fmks : EIO can't do " 4514 "space cmd #3\n"); 4515 rval = EIO; 4516 break; 4517 } 4518 if ((un->un_pos.eof >= ST_EOF_PENDING) && 4519 (un->un_dp->options & ST_REEL)) { 4520 un->un_status = SUN_KEY_EOT; 4521 ST_DEBUG2(ST_DEVINFO, st_label, 4522 SCSI_DEBUG, 4523 "space_fmks : EIO ST_REEL\n"); 4524 rval = EIO; 4525 break; 4526 } else if (IN_EOF(un->un_pos)) { 4527 un->un_pos.eof = ST_NO_EOF; 4528 un->un_pos.fileno++; 4529 un->un_pos.blkno = 0; 4530 count--; 4531 } else if (un->un_pos.eof > ST_EOF) { 4532 ST_DEBUG2(ST_DEVINFO, st_label, 4533 SCSI_DEBUG, 4534 "space_fmks, EIO > ST_EOF\n"); 4535 rval = EIO; 4536 break; 4537 } 4538 4539 } 4540 } 4541 un->un_err_resid = count; 4542 COPY_POS(&un->un_pos, &un->un_err_pos); 4543 } 4544 ASSERT(mutex_owned(ST_MUTEX)); 4545 return (rval); 4546 } 4547 4548 /* 4549 * this routine spaces to EOD 4550 * 4551 * it keeps track of the current filenumber and returns the filenumber after 4552 * the last successful space operation, we keep the number high because as 4553 * tapes are getting larger, the possibility of more and more files exist, 4554 * 0x100000 (1 Meg of files) probably will never have to be changed any time 4555 * soon 4556 */ 4557 #define MAX_SKIP 0x100000 /* somewhat arbitrary */ 4558 4559 static int 4560 st_find_eod(struct scsi_tape *un) 4561 { 4562 tapepos_t savepos; 4563 int64_t sp_type; 4564 int result; 4565 4566 if (un == NULL) { 4567 return (-1); 4568 } 4569 4570 ST_FUNC(ST_DEVINFO, st_find_eod); 4571 4572 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 4573 "st_find_eod(dev = 0x%lx): fileno = %d\n", un->un_dev, 4574 un->un_pos.fileno); 4575 4576 ASSERT(mutex_owned(ST_MUTEX)); 4577 4578 COPY_POS(&savepos, &un->un_pos); 4579 4580 /* 4581 * see if the drive is smart enough to do the skips in 4582 * one operation; 1/2" use two filemarks 4583 * the exabyte 8500 reading 8200 tapes cannot use KNOWS_EOD 4584 * because the 8200 does not append a marker; in order not to 4585 * sacrifice the fast file skip, we do a slow skip if the low 4586 * density device has been opened 4587 */ 4588 if ((un->un_dp->options & ST_KNOWS_EOD) != 0) { 4589 if ((un->un_dp->type == ST_TYPE_EXB8500) && 4590 (MT_DENSITY(un->un_dev) == 0)) { 4591 sp_type = Fmk(1); 4592 } else if (un->un_pos.pmode == logical) { 4593 sp_type = SPACE(SP_EOD, 0); 4594 } else { 4595 sp_type = Fmk(MAX_SKIP); 4596 } 4597 } else { 4598 sp_type = Fmk(1); 4599 } 4600 4601 for (;;) { 4602 result = st_cmd(un, SCMD_SPACE, sp_type, SYNC_CMD); 4603 4604 if (result == 0) { 4605 COPY_POS(&savepos, &un->un_pos); 4606 } 4607 4608 if (sp_type == SPACE(SP_EOD, 0)) { 4609 if (result != 0) { 4610 sp_type = Fmk(MAX_SKIP); 4611 continue; 4612 } 4613 4614 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4615 "st_find_eod: 0x%"PRIx64"\n", 4616 savepos.lgclblkno); 4617 /* 4618 * What we return will become the current file position. 4619 * After completing the space command with the position 4620 * mode that is not invalid a read position command will 4621 * be automaticly issued. If the drive support the long 4622 * read position format a valid file position can be 4623 * returned. 4624 */ 4625 return (un->un_pos.fileno); 4626 } 4627 4628 if (result != 0) { 4629 break; 4630 } 4631 4632 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4633 "count=%"PRIx64", eof=%x, status=%x\n", 4634 SPACE_CNT(sp_type), un->un_pos.eof, un->un_status); 4635 4636 /* 4637 * If we're not EOM smart, space a record 4638 * to see whether we're now in the slot between 4639 * the two sequential filemarks that logical 4640 * EOM consists of (REEL) or hit nowhere land 4641 * (8mm). 4642 */ 4643 if (sp_type == Fmk(1)) { 4644 /* 4645 * no fast skipping, check a record 4646 */ 4647 if (st_cmd(un, SCMD_SPACE, Blk((1)), SYNC_CMD)) { 4648 break; 4649 } 4650 if ((un->un_pos.eof >= ST_EOF_PENDING) && 4651 (un->un_dp->options & ST_REEL)) { 4652 un->un_status = KEY_BLANK_CHECK; 4653 un->un_pos.fileno++; 4654 un->un_pos.blkno = 0; 4655 break; 4656 } 4657 if (IN_EOF(un->un_pos)) { 4658 un->un_pos.eof = ST_NO_EOF; 4659 un->un_pos.fileno++; 4660 un->un_pos.blkno = 0; 4661 } 4662 if (un->un_pos.eof > ST_EOF) { 4663 break; 4664 } 4665 } else { 4666 if (un->un_pos.eof > ST_EOF) { 4667 break; 4668 } 4669 } 4670 } 4671 4672 if (un->un_dp->options & ST_KNOWS_EOD) { 4673 COPY_POS(&savepos, &un->un_pos); 4674 } 4675 4676 ASSERT(mutex_owned(ST_MUTEX)); 4677 4678 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 4679 "st_find_eod: %x\n", savepos.fileno); 4680 return (savepos.fileno); 4681 } 4682 4683 4684 /* 4685 * this routine is frequently used in ioctls below; 4686 * it determines whether we know the density and if not will 4687 * determine it 4688 * if we have written the tape before, one or more filemarks are written 4689 * 4690 * depending on the stepflag, the head is repositioned to where it was before 4691 * the filemarks were written in order not to confuse step counts 4692 */ 4693 #define STEPBACK 0 4694 #define NO_STEPBACK 1 4695 4696 static int 4697 st_check_density_or_wfm(dev_t dev, int wfm, int mode, int stepflag) 4698 { 4699 4700 GET_SOFT_STATE(dev); 4701 4702 ST_FUNC(ST_DEVINFO, st_check_density_or_wfm); 4703 4704 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 4705 "st_check_density_or_wfm(dev= 0x%lx, wfm= %d, mode= %d, stpflg= %d)" 4706 "\n", dev, wfm, mode, stepflag); 4707 4708 ASSERT(mutex_owned(ST_MUTEX)); 4709 4710 /* 4711 * If we don't yet know the density of the tape we have inserted, 4712 * we have to either unconditionally set it (if we're 'writing'), 4713 * or we have to determine it. As side effects, check for any 4714 * write-protect errors, and for the need to put out any file-marks 4715 * before positioning a tape. 4716 * 4717 * If we are going to be spacing forward, and we haven't determined 4718 * the tape density yet, we have to do so now... 4719 */ 4720 if (un->un_state == ST_STATE_OPEN_PENDING_IO) { 4721 if (st_determine_density(un, mode)) { 4722 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 4723 "check_density_or_wfm : EIO can't determine " 4724 "density\n"); 4725 un->un_errno = EIO; 4726 return (EIO); 4727 } 4728 /* 4729 * Presumably we are at BOT. If we attempt to write, it will 4730 * either work okay, or bomb. We don't do a st_test_append 4731 * unless we're past BOT. 4732 */ 4733 un->un_laststate = un->un_state; 4734 un->un_state = ST_STATE_OPEN; 4735 4736 } else if (un->un_pos.pmode != invalid && un->un_fmneeded > 0 && 4737 ((un->un_lastop == ST_OP_WEOF && wfm) || 4738 (un->un_lastop == ST_OP_WRITE && wfm))) { 4739 4740 tapepos_t spos; 4741 4742 COPY_POS(&spos, &un->un_pos); 4743 4744 /* 4745 * We need to write one or two filemarks. 4746 * In the case of the HP, we need to 4747 * position the head between the two 4748 * marks. 4749 */ 4750 if ((un->un_fmneeded > 0) || (un->un_lastop == ST_OP_WEOF)) { 4751 wfm = un->un_fmneeded; 4752 un->un_fmneeded = 0; 4753 } 4754 4755 if (st_write_fm(dev, wfm)) { 4756 un->un_pos.pmode = invalid; 4757 un->un_density_known = 0; 4758 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 4759 "check_density_or_wfm : EIO can't write fm\n"); 4760 un->un_errno = EIO; 4761 return (EIO); 4762 } 4763 4764 if (stepflag == STEPBACK) { 4765 if (st_cmd(un, SCMD_SPACE, Fmk(-wfm), SYNC_CMD)) { 4766 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 4767 "check_density_or_wfm : EIO can't space " 4768 "(-wfm)\n"); 4769 un->un_errno = EIO; 4770 return (EIO); 4771 } 4772 COPY_POS(&un->un_pos, &spos); 4773 } 4774 } 4775 4776 /* 4777 * Whatever we do at this point clears the state of the eof flag. 4778 */ 4779 4780 un->un_pos.eof = ST_NO_EOF; 4781 4782 /* 4783 * If writing, let's check that we're positioned correctly 4784 * at the end of tape before issuing the next write. 4785 */ 4786 if (un->un_read_only == RDWR) { 4787 un->un_test_append = 1; 4788 } 4789 4790 ASSERT(mutex_owned(ST_MUTEX)); 4791 return (0); 4792 } 4793 4794 4795 /* 4796 * Wait for all outstaning I/O's to complete 4797 * 4798 * we wait on both ncmds and the wait queue for times when we are flushing 4799 * after persistent errors are flagged, which is when ncmds can be 0, and the 4800 * queue can still have I/O's. This way we preserve order of biodone's. 4801 */ 4802 static void 4803 st_wait_for_io(struct scsi_tape *un) 4804 { 4805 ST_FUNC(ST_DEVINFO, st_wait_for_io); 4806 ASSERT(mutex_owned(ST_MUTEX)); 4807 while ((un->un_ncmds) || (un->un_quef) || (un->un_runqf)) { 4808 cv_wait(&un->un_queue_cv, ST_MUTEX); 4809 } 4810 } 4811 4812 /* 4813 * This routine implements the ioctl calls. It is called 4814 * from the device switch at normal priority. 4815 */ 4816 /*ARGSUSED*/ 4817 static int 4818 st_ioctl(dev_t dev, int cmd, intptr_t arg, int flag, cred_t *cred_p, 4819 int *rval_p) 4820 { 4821 int tmp, rval = 0; 4822 4823 GET_SOFT_STATE(dev); 4824 4825 ST_ENTR(ST_DEVINFO, st_ioctl); 4826 4827 mutex_enter(ST_MUTEX); 4828 4829 ASSERT(un->un_recov_buf_busy == 0); 4830 4831 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 4832 "st_ioctl(): fileno=%x, blkno=%x, eof=%x, state = %d, " 4833 "pe_flag = %d\n", 4834 un->un_pos.fileno, un->un_pos.blkno, un->un_pos.eof, un->un_state, 4835 un->un_persistence && un->un_persist_errors); 4836 4837 /* 4838 * We don't want to block on these, so let them through 4839 * and we don't care about setting driver states here. 4840 */ 4841 if ((cmd == MTIOCGETDRIVETYPE) || 4842 (cmd == MTIOCGUARANTEEDORDER) || 4843 (cmd == MTIOCPERSISTENTSTATUS)) { 4844 goto check_commands; 4845 } 4846 4847 /* 4848 * We clear error entry stack except command 4849 * MTIOCGETERROR and MTIOCGET 4850 */ 4851 if ((cmd != MTIOCGETERROR) && 4852 (cmd != MTIOCGET)) { 4853 st_empty_error_stack(un); 4854 } 4855 4856 /* 4857 * wait for all outstanding commands to complete, or be dequeued. 4858 * And because ioctl's are synchronous commands, any return value 4859 * after this, will be in order 4860 */ 4861 st_wait_for_io(un); 4862 4863 /* 4864 * allow only a through clear errors and persistent status, and 4865 * status 4866 */ 4867 if (un->un_persistence && un->un_persist_errors) { 4868 if ((cmd == MTIOCLRERR) || 4869 (cmd == MTIOCPERSISTENT) || 4870 (cmd == MTIOCGET)) { 4871 goto check_commands; 4872 } else { 4873 rval = un->un_errno; 4874 goto exit; 4875 } 4876 } 4877 4878 ASSERT(un->un_throttle != 0); 4879 un->un_throttle = 1; /* > 1 will never happen here */ 4880 un->un_errno = 0; /* start clean from here */ 4881 4882 /* 4883 * first and foremost, handle any ST_EOT_PENDING cases. 4884 * That is, if a logical eot is pending notice, notice it. 4885 */ 4886 if (un->un_pos.eof == ST_EOT_PENDING) { 4887 int resid = un->un_err_resid; 4888 uchar_t status = un->un_status; 4889 uchar_t lastop = un->un_lastop; 4890 4891 if (st_cmd(un, SCMD_SPACE, Fmk(-1), SYNC_CMD)) { 4892 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 4893 "stioctl : EIO can't space fmk(-1)\n"); 4894 rval = EIO; 4895 goto exit; 4896 } 4897 un->un_lastop = lastop; /* restore last operation */ 4898 if (status == SUN_KEY_EOF) { 4899 un->un_status = SUN_KEY_EOT; 4900 } else { 4901 un->un_status = status; 4902 } 4903 un->un_err_resid = resid; 4904 /* fix up block number */ 4905 un->un_err_pos.blkno = un->un_pos.blkno = 0; 4906 /* now we're at logical eot */ 4907 un->un_pos.eof = ST_EOT; 4908 } 4909 4910 /* 4911 * now, handle the rest of the situations 4912 */ 4913 check_commands: 4914 switch (cmd) { 4915 case MTIOCGET: 4916 { 4917 #ifdef _MULTI_DATAMODEL 4918 /* 4919 * For use when a 32 bit app makes a call into a 4920 * 64 bit ioctl 4921 */ 4922 struct mtget32 mtg_local32; 4923 struct mtget32 *mtget_32 = &mtg_local32; 4924 #endif /* _MULTI_DATAMODEL */ 4925 4926 /* Get tape status */ 4927 struct mtget mtg_local; 4928 struct mtget *mtget = &mtg_local; 4929 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 4930 "st_ioctl: MTIOCGET\n"); 4931 4932 bzero((caddr_t)mtget, sizeof (struct mtget)); 4933 mtget->mt_erreg = un->un_status; 4934 mtget->mt_resid = un->un_err_resid; 4935 mtget->mt_dsreg = un->un_retry_ct; 4936 if (un->un_err_pos.pmode == legacy) { 4937 mtget->mt_fileno = un->un_err_pos.fileno; 4938 } else { 4939 mtget->mt_fileno = -1; 4940 } 4941 /* 4942 * If the value is positive fine. 4943 * If its negative we need to return a value based on the 4944 * old way if counting backwards from INF (1,000,000,000). 4945 */ 4946 if (un->un_err_pos.blkno >= 0) { 4947 mtget->mt_blkno = un->un_err_pos.blkno; 4948 } else { 4949 mtget->mt_blkno = INF + 1 - (-un->un_err_pos.blkno); 4950 } 4951 mtget->mt_type = un->un_dp->type; 4952 mtget->mt_flags = MTF_SCSI | MTF_ASF; 4953 if (un->un_read_pos_type != NO_POS) { 4954 mtget->mt_flags |= MTF_LOGICAL_BLOCK; 4955 } 4956 if (un->un_dp->options & ST_REEL) { 4957 mtget->mt_flags |= MTF_REEL; 4958 mtget->mt_bf = 20; 4959 } else { /* 1/4" cartridges */ 4960 switch (mtget->mt_type) { 4961 /* Emulex cartridge tape */ 4962 case MT_ISMT02: 4963 mtget->mt_bf = 40; 4964 break; 4965 default: 4966 mtget->mt_bf = 126; 4967 break; 4968 } 4969 } 4970 4971 /* 4972 * If large transfers are allowed and drive options 4973 * has no record size limit set. Calculate blocking 4974 * factor from the lesser of maxbsize and maxdma. 4975 */ 4976 if ((un->un_allow_large_xfer) && 4977 (un->un_dp->options & ST_NO_RECSIZE_LIMIT)) { 4978 mtget->mt_bf = min(un->un_maxbsize, 4979 un->un_maxdma) / SECSIZE; 4980 } 4981 4982 if (un->un_read_only == WORM || 4983 un->un_read_only == RDWORM) { 4984 mtget->mt_flags |= MTF_WORM_MEDIA; 4985 } 4986 4987 /* 4988 * In persistent error mode sending a non-queued can hang 4989 * because this ioctl gets to be run without turning off 4990 * persistense. Fake the answer based on previous info. 4991 */ 4992 if (un->un_persistence) { 4993 rval = 0; 4994 } else { 4995 rval = st_check_clean_bit(un); 4996 } 4997 if (rval == 0) { 4998 /* 4999 * If zero is returned or in persistent mode, 5000 * use the old data. 5001 */ 5002 if ((un->un_HeadClean & (TAPE_ALERT_SUPPORTED | 5003 TAPE_SEQUENTIAL_SUPPORTED|TAPE_ALERT_NOT_SUPPORTED)) 5004 != TAPE_ALERT_NOT_SUPPORTED) { 5005 mtget->mt_flags |= MTF_TAPE_CLN_SUPPORTED; 5006 } 5007 if (un->un_HeadClean & (TAPE_PREVIOUSLY_DIRTY | 5008 TAPE_ALERT_STILL_DIRTY)) { 5009 mtget->mt_flags |= MTF_TAPE_HEAD_DIRTY; 5010 } 5011 } else { 5012 mtget->mt_flags |= (ushort_t)rval; 5013 rval = 0; 5014 } 5015 5016 un->un_status = 0; /* Reset status */ 5017 un->un_err_resid = 0; 5018 tmp = sizeof (struct mtget); 5019 5020 #ifdef _MULTI_DATAMODEL 5021 5022 switch (ddi_model_convert_from(flag & FMODELS)) { 5023 case DDI_MODEL_ILP32: 5024 /* 5025 * Convert 64 bit back to 32 bit before doing 5026 * copyout. This is what the ILP32 app expects. 5027 */ 5028 mtget_32->mt_erreg = mtget->mt_erreg; 5029 mtget_32->mt_resid = mtget->mt_resid; 5030 mtget_32->mt_dsreg = mtget->mt_dsreg; 5031 mtget_32->mt_fileno = (daddr32_t)mtget->mt_fileno; 5032 mtget_32->mt_blkno = (daddr32_t)mtget->mt_blkno; 5033 mtget_32->mt_type = mtget->mt_type; 5034 mtget_32->mt_flags = mtget->mt_flags; 5035 mtget_32->mt_bf = mtget->mt_bf; 5036 5037 if (ddi_copyout(mtget_32, (void *)arg, 5038 sizeof (struct mtget32), flag)) { 5039 rval = EFAULT; 5040 } 5041 break; 5042 5043 case DDI_MODEL_NONE: 5044 if (ddi_copyout(mtget, (void *)arg, tmp, flag)) { 5045 rval = EFAULT; 5046 } 5047 break; 5048 } 5049 #else /* ! _MULTI_DATAMODE */ 5050 if (ddi_copyout(mtget, (void *)arg, tmp, flag)) { 5051 rval = EFAULT; 5052 } 5053 #endif /* _MULTI_DATAMODE */ 5054 5055 break; 5056 } 5057 case MTIOCGETERROR: 5058 /* 5059 * get error entry from error stack 5060 */ 5061 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5062 "st_ioctl: MTIOCGETERROR\n"); 5063 5064 rval = st_get_error_entry(un, arg, flag); 5065 5066 break; 5067 5068 case MTIOCSTATE: 5069 { 5070 /* 5071 * return when media presence matches state 5072 */ 5073 enum mtio_state state; 5074 5075 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5076 "st_ioctl: MTIOCSTATE\n"); 5077 5078 if (ddi_copyin((void *)arg, &state, sizeof (int), flag)) 5079 rval = EFAULT; 5080 5081 mutex_exit(ST_MUTEX); 5082 5083 rval = st_check_media(dev, state); 5084 5085 mutex_enter(ST_MUTEX); 5086 5087 if (rval != 0) { 5088 break; 5089 } 5090 5091 if (ddi_copyout(&un->un_mediastate, (void *)arg, 5092 sizeof (int), flag)) 5093 rval = EFAULT; 5094 break; 5095 5096 } 5097 5098 case MTIOCGETDRIVETYPE: 5099 { 5100 #ifdef _MULTI_DATAMODEL 5101 /* 5102 * For use when a 32 bit app makes a call into a 5103 * 64 bit ioctl 5104 */ 5105 struct mtdrivetype_request32 mtdtrq32; 5106 #endif /* _MULTI_DATAMODEL */ 5107 5108 /* 5109 * return mtdrivetype 5110 */ 5111 struct mtdrivetype_request mtdtrq; 5112 struct mtdrivetype mtdrtyp; 5113 struct mtdrivetype *mtdt = &mtdrtyp; 5114 struct st_drivetype *stdt = un->un_dp; 5115 5116 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5117 "st_ioctl: MTIOCGETDRIVETYPE\n"); 5118 5119 #ifdef _MULTI_DATAMODEL 5120 switch (ddi_model_convert_from(flag & FMODELS)) { 5121 case DDI_MODEL_ILP32: 5122 { 5123 if (ddi_copyin((void *)arg, &mtdtrq32, 5124 sizeof (struct mtdrivetype_request32), flag)) { 5125 rval = EFAULT; 5126 break; 5127 } 5128 mtdtrq.size = mtdtrq32.size; 5129 mtdtrq.mtdtp = 5130 (struct mtdrivetype *)(uintptr_t)mtdtrq32.mtdtp; 5131 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5132 "st_ioctl: size 0x%x\n", mtdtrq.size); 5133 break; 5134 } 5135 case DDI_MODEL_NONE: 5136 if (ddi_copyin((void *)arg, &mtdtrq, 5137 sizeof (struct mtdrivetype_request), flag)) { 5138 rval = EFAULT; 5139 break; 5140 } 5141 break; 5142 } 5143 5144 #else /* ! _MULTI_DATAMODEL */ 5145 if (ddi_copyin((void *)arg, &mtdtrq, 5146 sizeof (struct mtdrivetype_request), flag)) { 5147 rval = EFAULT; 5148 break; 5149 } 5150 #endif /* _MULTI_DATAMODEL */ 5151 5152 /* 5153 * if requested size is < 0 then return 5154 * error. 5155 */ 5156 if (mtdtrq.size < 0) { 5157 rval = EINVAL; 5158 break; 5159 } 5160 bzero(mtdt, sizeof (struct mtdrivetype)); 5161 (void) strncpy(mtdt->name, stdt->name, ST_NAMESIZE); 5162 (void) strncpy(mtdt->vid, stdt->vid, VIDPIDLEN - 1); 5163 mtdt->type = stdt->type; 5164 mtdt->bsize = stdt->bsize; 5165 mtdt->options = stdt->options; 5166 mtdt->max_rretries = stdt->max_rretries; 5167 mtdt->max_wretries = stdt->max_wretries; 5168 for (tmp = 0; tmp < NDENSITIES; tmp++) { 5169 mtdt->densities[tmp] = stdt->densities[tmp]; 5170 } 5171 mtdt->default_density = stdt->default_density; 5172 /* 5173 * Speed hasn't been used since the hayday of reel tape. 5174 * For all drives not setting the option ST_KNOWS_MEDIA 5175 * the speed member renamed to mediatype are zeros. 5176 * Those drives that have ST_KNOWS_MEDIA set use the 5177 * new mediatype member which is used to figure the 5178 * type of media loaded. 5179 * 5180 * So as to not break applications speed in the 5181 * mtdrivetype structure is not renamed. 5182 */ 5183 for (tmp = 0; tmp < NDENSITIES; tmp++) { 5184 mtdt->speeds[tmp] = stdt->mediatype[tmp]; 5185 } 5186 mtdt->non_motion_timeout = stdt->non_motion_timeout; 5187 mtdt->io_timeout = stdt->io_timeout; 5188 mtdt->rewind_timeout = stdt->rewind_timeout; 5189 mtdt->space_timeout = stdt->space_timeout; 5190 mtdt->load_timeout = stdt->load_timeout; 5191 mtdt->unload_timeout = stdt->unload_timeout; 5192 mtdt->erase_timeout = stdt->erase_timeout; 5193 5194 /* 5195 * Limit the maximum length of the result to 5196 * sizeof (struct mtdrivetype). 5197 */ 5198 tmp = sizeof (struct mtdrivetype); 5199 if (mtdtrq.size < tmp) 5200 tmp = mtdtrq.size; 5201 if (ddi_copyout(mtdt, mtdtrq.mtdtp, tmp, flag)) { 5202 rval = EFAULT; 5203 } 5204 break; 5205 } 5206 case MTIOCPERSISTENT: 5207 5208 if (ddi_copyin((void *)arg, &tmp, sizeof (tmp), flag)) { 5209 rval = EFAULT; 5210 break; 5211 } 5212 5213 if (tmp) { 5214 st_turn_pe_on(un); 5215 } else { 5216 st_turn_pe_off(un); 5217 } 5218 5219 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5220 "st_ioctl: MTIOCPERSISTENT : persistence = %d\n", 5221 un->un_persistence); 5222 5223 break; 5224 5225 case MTIOCPERSISTENTSTATUS: 5226 tmp = (int)un->un_persistence; 5227 5228 if (ddi_copyout(&tmp, (void *)arg, sizeof (tmp), flag)) { 5229 rval = EFAULT; 5230 } 5231 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5232 "st_ioctl: MTIOCPERSISTENTSTATUS:persistence = %d\n", 5233 un->un_persistence); 5234 5235 break; 5236 5237 case MTIOCLRERR: 5238 { 5239 /* clear persistent errors */ 5240 5241 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5242 "st_ioctl: MTIOCLRERR\n"); 5243 5244 st_clear_pe(un); 5245 5246 break; 5247 } 5248 5249 case MTIOCGUARANTEEDORDER: 5250 { 5251 /* 5252 * this is just a holder to make a valid ioctl and 5253 * it won't be in any earlier release 5254 */ 5255 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5256 "st_ioctl: MTIOCGUARANTEEDORDER\n"); 5257 5258 break; 5259 } 5260 5261 case MTIOCRESERVE: 5262 { 5263 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 5264 "st_ioctl: MTIOCRESERVE\n"); 5265 5266 /* 5267 * Check if Reserve/Release is supported. 5268 */ 5269 if (un->un_dp->options & ST_NO_RESERVE_RELEASE) { 5270 rval = ENOTTY; 5271 break; 5272 } 5273 5274 rval = st_reserve_release(un, ST_RESERVE, st_uscsi_cmd); 5275 5276 if (rval == 0) { 5277 un->un_rsvd_status |= ST_PRESERVE_RESERVE; 5278 } 5279 break; 5280 } 5281 5282 case MTIOCRELEASE: 5283 { 5284 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 5285 "st_ioctl: MTIOCRELEASE\n"); 5286 5287 /* 5288 * Check if Reserve/Release is supported. 5289 */ 5290 if (un->un_dp->options & ST_NO_RESERVE_RELEASE) { 5291 rval = ENOTTY; 5292 break; 5293 } 5294 5295 /* 5296 * Used to just clear ST_PRESERVE_RESERVE which 5297 * made the reservation release at next close. 5298 * As the user may have opened and then done a 5299 * persistant reservation we now need to drop 5300 * the reservation without closing if the user 5301 * attempts to do this. 5302 */ 5303 rval = st_reserve_release(un, ST_RELEASE, st_uscsi_cmd); 5304 5305 un->un_rsvd_status &= ~ST_PRESERVE_RESERVE; 5306 5307 break; 5308 } 5309 5310 case MTIOCFORCERESERVE: 5311 { 5312 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 5313 "st_ioctl: MTIOCFORCERESERVE\n"); 5314 5315 /* 5316 * Check if Reserve/Release is supported. 5317 */ 5318 if (un->un_dp->options & ST_NO_RESERVE_RELEASE) { 5319 rval = ENOTTY; 5320 break; 5321 } 5322 /* 5323 * allow only super user to run this. 5324 */ 5325 if (drv_priv(cred_p) != 0) { 5326 rval = EPERM; 5327 break; 5328 } 5329 /* 5330 * Throw away reserve, 5331 * not using test-unit-ready 5332 * since reserve can succeed without tape being 5333 * present in the drive. 5334 */ 5335 (void) st_reserve_release(un, ST_RESERVE, st_uscsi_cmd); 5336 5337 rval = st_take_ownership(un, st_uscsi_cmd); 5338 5339 break; 5340 } 5341 5342 case USCSICMD: 5343 { 5344 cred_t *cr; 5345 5346 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5347 "st_ioctl: USCSICMD\n"); 5348 5349 cr = ddi_get_cred(); 5350 if ((drv_priv(cred_p) != 0) && (drv_priv(cr) != 0)) { 5351 rval = EPERM; 5352 } else { 5353 rval = st_uscsi_cmd(un, (struct uscsi_cmd *)arg, flag); 5354 } 5355 break; 5356 } 5357 case MTIOCTOP: 5358 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5359 "st_ioctl: MTIOCTOP\n"); 5360 rval = st_mtioctop(un, arg, flag); 5361 break; 5362 5363 case MTIOCLTOP: 5364 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5365 "st_ioctl: MTIOLCTOP\n"); 5366 rval = st_mtiocltop(un, arg, flag); 5367 break; 5368 5369 case MTIOCREADIGNOREILI: 5370 { 5371 int set_ili; 5372 5373 if (ddi_copyin((void *)arg, &set_ili, 5374 sizeof (set_ili), flag)) { 5375 rval = EFAULT; 5376 break; 5377 } 5378 5379 if (un->un_bsize) { 5380 rval = ENOTTY; 5381 break; 5382 } 5383 5384 switch (set_ili) { 5385 case 0: 5386 un->un_dp->options &= ~ST_READ_IGNORE_ILI; 5387 break; 5388 5389 case 1: 5390 un->un_dp->options |= ST_READ_IGNORE_ILI; 5391 break; 5392 5393 default: 5394 rval = EINVAL; 5395 break; 5396 } 5397 break; 5398 } 5399 5400 case MTIOCREADIGNOREEOFS: 5401 { 5402 int ignore_eof; 5403 5404 if (ddi_copyin((void *)arg, &ignore_eof, 5405 sizeof (ignore_eof), flag)) { 5406 rval = EFAULT; 5407 break; 5408 } 5409 5410 if (!(un->un_dp->options & ST_REEL)) { 5411 rval = ENOTTY; 5412 break; 5413 } 5414 5415 switch (ignore_eof) { 5416 case 0: 5417 un->un_dp->options &= ~ST_READ_IGNORE_EOFS; 5418 break; 5419 5420 case 1: 5421 un->un_dp->options |= ST_READ_IGNORE_EOFS; 5422 break; 5423 5424 default: 5425 rval = EINVAL; 5426 break; 5427 } 5428 break; 5429 } 5430 5431 case MTIOCSHORTFMK: 5432 { 5433 int short_fmk; 5434 5435 if (ddi_copyin((void *)arg, &short_fmk, 5436 sizeof (short_fmk), flag)) { 5437 rval = EFAULT; 5438 break; 5439 } 5440 5441 switch (un->un_dp->type) { 5442 case ST_TYPE_EXB8500: 5443 case ST_TYPE_EXABYTE: 5444 if (!short_fmk) { 5445 un->un_dp->options &= ~ST_SHORT_FILEMARKS; 5446 } else if (short_fmk == 1) { 5447 un->un_dp->options |= ST_SHORT_FILEMARKS; 5448 } else { 5449 rval = EINVAL; 5450 } 5451 break; 5452 5453 default: 5454 rval = ENOTTY; 5455 break; 5456 } 5457 break; 5458 } 5459 5460 case MTIOCGETPOS: 5461 rval = st_update_block_pos(un, st_cmd, 0); 5462 if (rval == 0) { 5463 if (ddi_copyout((void *)&un->un_pos, (void *)arg, 5464 sizeof (tapepos_t), flag)) { 5465 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 5466 "MTIOCGETPOS copy out failed\n"); 5467 rval = EFAULT; 5468 } 5469 } 5470 break; 5471 5472 case MTIOCRESTPOS: 5473 { 5474 tapepos_t dest; 5475 5476 if (ddi_copyin((void *)arg, &dest, sizeof (tapepos_t), 5477 flag) != 0) { 5478 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 5479 "MTIOCRESTPOS copy in failed\n"); 5480 rval = EFAULT; 5481 break; 5482 } 5483 rval = st_validate_tapemarks(un, st_uscsi_cmd, &dest); 5484 if (rval != 0) { 5485 rval = EIO; 5486 } 5487 break; 5488 } 5489 default: 5490 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 5491 "st_ioctl: unknown ioctl\n"); 5492 rval = ENOTTY; 5493 } 5494 5495 exit: 5496 if (!(un->un_persistence && un->un_persist_errors)) { 5497 un->un_errno = rval; 5498 } 5499 5500 mutex_exit(ST_MUTEX); 5501 5502 return (rval); 5503 } 5504 5505 5506 /* 5507 * do some MTIOCTOP tape operations 5508 */ 5509 static int 5510 st_mtioctop(struct scsi_tape *un, intptr_t arg, int flag) 5511 { 5512 #ifdef _MULTI_DATAMODEL 5513 /* 5514 * For use when a 32 bit app makes a call into a 5515 * 64 bit ioctl 5516 */ 5517 struct mtop32 mtop_32_for_64; 5518 #endif /* _MULTI_DATAMODEL */ 5519 struct mtop passed; 5520 struct mtlop local; 5521 int rval = 0; 5522 5523 ST_FUNC(ST_DEVINFO, st_mtioctop); 5524 5525 ASSERT(mutex_owned(ST_MUTEX)); 5526 5527 #ifdef _MULTI_DATAMODEL 5528 switch (ddi_model_convert_from(flag & FMODELS)) { 5529 case DDI_MODEL_ILP32: 5530 if (ddi_copyin((void *)arg, &mtop_32_for_64, 5531 sizeof (struct mtop32), flag)) { 5532 return (EFAULT); 5533 } 5534 local.mt_op = mtop_32_for_64.mt_op; 5535 local.mt_count = (int64_t)mtop_32_for_64.mt_count; 5536 break; 5537 5538 case DDI_MODEL_NONE: 5539 if (ddi_copyin((void *)arg, &passed, sizeof (passed), flag)) { 5540 return (EFAULT); 5541 } 5542 local.mt_op = passed.mt_op; 5543 /* prevent sign extention */ 5544 local.mt_count = (UINT32_MAX & passed.mt_count); 5545 break; 5546 } 5547 5548 #else /* ! _MULTI_DATAMODEL */ 5549 if (ddi_copyin((void *)arg, &passed, sizeof (passed), flag)) { 5550 return (EFAULT); 5551 } 5552 local.mt_op = passed.mt_op; 5553 /* prevent sign extention */ 5554 local.mt_count = (UINT32_MAX & passed.mt_count); 5555 #endif /* _MULTI_DATAMODEL */ 5556 5557 rval = st_do_mtioctop(un, &local); 5558 5559 #ifdef _MULTI_DATAMODEL 5560 switch (ddi_model_convert_from(flag & FMODELS)) { 5561 case DDI_MODEL_ILP32: 5562 if (((uint64_t)local.mt_count) > UINT32_MAX) { 5563 rval = ERANGE; 5564 break; 5565 } 5566 /* 5567 * Convert 64 bit back to 32 bit before doing 5568 * copyout. This is what the ILP32 app expects. 5569 */ 5570 mtop_32_for_64.mt_op = local.mt_op; 5571 mtop_32_for_64.mt_count = local.mt_count; 5572 5573 if (ddi_copyout(&mtop_32_for_64, (void *)arg, 5574 sizeof (struct mtop32), flag)) { 5575 rval = EFAULT; 5576 } 5577 break; 5578 5579 case DDI_MODEL_NONE: 5580 passed.mt_count = local.mt_count; 5581 passed.mt_op = local.mt_op; 5582 if (ddi_copyout(&passed, (void *)arg, sizeof (passed), flag)) { 5583 rval = EFAULT; 5584 } 5585 break; 5586 } 5587 #else /* ! _MULTI_DATAMODE */ 5588 if (((uint64_t)local.mt_count) > UINT32_MAX) { 5589 rval = ERANGE; 5590 } else { 5591 passed.mt_op = local.mt_op; 5592 passed.mt_count = local.mt_count; 5593 if (ddi_copyout(&passed, (void *)arg, sizeof (passed), flag)) { 5594 rval = EFAULT; 5595 } 5596 } 5597 #endif /* _MULTI_DATAMODE */ 5598 5599 5600 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 5601 "st_ioctl: fileno=%x, blkno=%x, eof=%x\n", un->un_pos.fileno, 5602 un->un_pos.blkno, un->un_pos.eof); 5603 5604 if (un->un_pos.pmode == invalid) { 5605 un->un_density_known = 0; 5606 } 5607 5608 ASSERT(mutex_owned(ST_MUTEX)); 5609 return (rval); 5610 } 5611 5612 static int 5613 st_mtiocltop(struct scsi_tape *un, intptr_t arg, int flag) 5614 { 5615 struct mtlop local; 5616 int rval; 5617 5618 ST_FUNC(ST_DEVINFO, st_mtiocltop); 5619 if (ddi_copyin((void *)arg, &local, sizeof (local), flag)) { 5620 return (EFAULT); 5621 } 5622 5623 rval = st_do_mtioctop(un, &local); 5624 5625 if (ddi_copyout(&local, (void *)arg, sizeof (local), flag)) { 5626 rval = EFAULT; 5627 } 5628 return (rval); 5629 } 5630 5631 5632 static int 5633 st_do_mtioctop(struct scsi_tape *un, struct mtlop *mtop) 5634 { 5635 dev_t dev = un->un_dev; 5636 int savefile; 5637 int rval = 0; 5638 5639 ST_FUNC(ST_DEVINFO, st_do_mtioctop); 5640 5641 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 5642 "st_do_mtioctop(): mt_op=%x\n", mtop->mt_op); 5643 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 5644 "fileno=%x, blkno=%x, eof=%x\n", 5645 un->un_pos.fileno, un->un_pos.blkno, un->un_pos.eof); 5646 5647 un->un_status = 0; 5648 5649 /* 5650 * if we are going to mess with a tape, we have to make sure we have 5651 * one and are not offline (i.e. no tape is initialized). We let 5652 * commands pass here that don't actually touch the tape, except for 5653 * loading and initialization (rewinding). 5654 */ 5655 if (un->un_state == ST_STATE_OFFLINE) { 5656 switch (mtop->mt_op) { 5657 case MTLOAD: 5658 case MTNOP: 5659 /* 5660 * We don't want strategy calling st_tape_init here, 5661 * so, change state 5662 */ 5663 un->un_state = ST_STATE_INITIALIZING; 5664 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5665 "st_do_mtioctop : OFFLINE state = %d\n", 5666 un->un_state); 5667 break; 5668 default: 5669 /* 5670 * reinitialize by normal means 5671 */ 5672 rval = st_tape_init(un); 5673 if (rval) { 5674 un->un_state = ST_STATE_INITIALIZING; 5675 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5676 "st_do_mtioctop : OFFLINE init failure "); 5677 un->un_state = ST_STATE_OFFLINE; 5678 un->un_pos.pmode = invalid; 5679 if (rval != EACCES) { 5680 rval = EIO; 5681 } 5682 return (rval); 5683 } 5684 un->un_state = ST_STATE_OPEN_PENDING_IO; 5685 break; 5686 } 5687 } 5688 5689 /* 5690 * If the file position is invalid, allow only those 5691 * commands that properly position the tape and fail 5692 * the rest with EIO 5693 */ 5694 if (un->un_pos.pmode == invalid) { 5695 switch (mtop->mt_op) { 5696 case MTWEOF: 5697 case MTRETEN: 5698 case MTERASE: 5699 case MTEOM: 5700 case MTFSF: 5701 case MTFSR: 5702 case MTBSF: 5703 case MTNBSF: 5704 case MTBSR: 5705 case MTSRSZ: 5706 case MTGRSZ: 5707 case MTSEEK: 5708 case MTBSSF: 5709 case MTFSSF: 5710 return (EIO); 5711 /* NOTREACHED */ 5712 case MTREW: 5713 case MTLOAD: 5714 case MTOFFL: 5715 case MTNOP: 5716 case MTTELL: 5717 case MTLOCK: 5718 case MTUNLOCK: 5719 break; 5720 5721 default: 5722 return (ENOTTY); 5723 /* NOTREACHED */ 5724 } 5725 } 5726 5727 switch (mtop->mt_op) { 5728 case MTERASE: 5729 /* 5730 * MTERASE rewinds the tape, erase it completely, and returns 5731 * to the beginning of the tape 5732 */ 5733 if (un->un_mspl->wp || un->un_read_only & WORM) { 5734 un->un_status = KEY_WRITE_PROTECT; 5735 un->un_err_resid = mtop->mt_count; 5736 COPY_POS(&un->un_err_pos, &un->un_pos); 5737 return (EACCES); 5738 } 5739 if (un->un_dp->options & ST_REEL) { 5740 un->un_fmneeded = 2; 5741 } else { 5742 un->un_fmneeded = 1; 5743 } 5744 mtop->mt_count = mtop->mt_count ? 1 : 0; 5745 if (st_check_density_or_wfm(dev, 1, B_WRITE, NO_STEPBACK) || 5746 st_cmd(un, SCMD_REWIND, 0, SYNC_CMD) || 5747 st_cmd(un, SCMD_ERASE, mtop->mt_count, SYNC_CMD)) { 5748 un->un_pos.pmode = invalid; 5749 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5750 "st_do_mtioctop : EIO space or erase or " 5751 "check den)\n"); 5752 rval = EIO; 5753 } else { 5754 /* QIC and helical scan rewind after erase */ 5755 if (un->un_dp->options & ST_REEL) { 5756 (void) st_cmd(un, SCMD_REWIND, 0, ASYNC_CMD); 5757 } 5758 } 5759 break; 5760 5761 case MTWEOF: 5762 /* 5763 * write an end-of-file record 5764 */ 5765 if (un->un_mspl->wp || un->un_read_only & RDONLY) { 5766 un->un_status = KEY_WRITE_PROTECT; 5767 un->un_err_resid = mtop->mt_count; 5768 COPY_POS(&un->un_err_pos, &un->un_pos); 5769 return (EACCES); 5770 } 5771 5772 /* 5773 * zero count means just flush buffers 5774 * negative count is not permitted 5775 */ 5776 if (mtop->mt_count < 0) { 5777 return (EINVAL); 5778 } 5779 5780 /* Not on worm */ 5781 if (un->un_read_only == RDWR) { 5782 un->un_test_append = 1; 5783 } 5784 5785 if (un->un_state == ST_STATE_OPEN_PENDING_IO) { 5786 if (st_determine_density(un, B_WRITE)) { 5787 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5788 "st_do_mtioctop : EIO : MTWEOF can't " 5789 "determine density"); 5790 return (EIO); 5791 } 5792 } 5793 5794 rval = st_write_fm(dev, (int)mtop->mt_count); 5795 if ((rval != 0) && (rval != EACCES)) { 5796 /* 5797 * Failure due to something other than illegal 5798 * request results in loss of state (st_intr). 5799 */ 5800 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5801 "st_do_mtioctop : EIO : MTWEOF can't write " 5802 "file mark"); 5803 rval = EIO; 5804 } 5805 break; 5806 5807 case MTRETEN: 5808 /* 5809 * retension the tape 5810 */ 5811 if (st_check_density_or_wfm(dev, 1, 0, NO_STEPBACK) || 5812 st_cmd(un, SCMD_LOAD, LD_LOAD | LD_RETEN, SYNC_CMD)) { 5813 un->un_pos.pmode = invalid; 5814 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5815 "st_do_mtioctop : EIO : MTRETEN "); 5816 rval = EIO; 5817 } 5818 break; 5819 5820 case MTREW: 5821 /* 5822 * rewind the tape 5823 */ 5824 if (st_check_density_or_wfm(dev, 1, 0, NO_STEPBACK)) { 5825 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5826 "st_do_mtioctop : EIO:MTREW check " 5827 "density/wfm failed"); 5828 return (EIO); 5829 } 5830 if (st_cmd(un, SCMD_REWIND, 0, SYNC_CMD)) { 5831 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5832 "st_do_mtioctop : EIO : MTREW "); 5833 rval = EIO; 5834 } 5835 break; 5836 5837 case MTOFFL: 5838 /* 5839 * rewinds, and, if appropriate, takes the device offline by 5840 * unloading the tape 5841 */ 5842 if (st_check_density_or_wfm(dev, 1, 0, NO_STEPBACK)) { 5843 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5844 "st_do_mtioctop :EIO:MTOFFL check " 5845 "density/wfm failed"); 5846 return (EIO); 5847 } 5848 (void) st_cmd(un, SCMD_REWIND, 0, SYNC_CMD); 5849 if (st_cmd(un, SCMD_LOAD, LD_UNLOAD, SYNC_CMD)) { 5850 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5851 "st_do_mtioctop : EIO : MTOFFL"); 5852 return (EIO); 5853 } 5854 un->un_pos.eof = ST_NO_EOF; 5855 un->un_laststate = un->un_state; 5856 un->un_state = ST_STATE_OFFLINE; 5857 un->un_mediastate = MTIO_EJECTED; 5858 break; 5859 5860 case MTLOAD: 5861 /* 5862 * This is to load a tape into the drive 5863 * Note that if the tape is not loaded, the device will have 5864 * to be opened via O_NDELAY or O_NONBLOCK. 5865 */ 5866 /* 5867 * Let's try and clean things up, if we are not 5868 * initializing, and then send in the load command, no 5869 * matter what. 5870 * 5871 * load after a media change by the user. 5872 */ 5873 5874 if (un->un_state > ST_STATE_INITIALIZING) { 5875 (void) st_check_density_or_wfm(dev, 1, 0, NO_STEPBACK); 5876 } 5877 rval = st_cmd(un, SCMD_LOAD, LD_LOAD, SYNC_CMD); 5878 /* Load command to a drive that doesn't support load */ 5879 if ((rval == EIO) && 5880 ((un->un_status == KEY_NOT_READY) && 5881 /* Medium not present */ 5882 (un->un_uscsi_rqs_buf->es_add_code == 0x3a) || 5883 ((un->un_status == KEY_ILLEGAL_REQUEST) && 5884 (un->un_dp->type == MT_ISSTK9840) && 5885 /* CSL not present */ 5886 (un->un_uscsi_rqs_buf->es_add_code == 0x80)))) { 5887 rval = ENOTTY; 5888 break; 5889 } else if (rval != EACCES && rval != 0) { 5890 rval = EIO; 5891 } 5892 if (rval) { 5893 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5894 "st_do_mtioctop : %s : MTLOAD\n", 5895 rval == EACCES ? "EACCES" : "EIO"); 5896 /* 5897 * If load tape fails, who knows what happened... 5898 */ 5899 un->un_pos.pmode = invalid; 5900 break; 5901 } 5902 5903 /* 5904 * reset all counters appropriately using rewind, as if LOAD 5905 * succeeds, we are at BOT 5906 */ 5907 un->un_state = ST_STATE_INITIALIZING; 5908 5909 rval = st_tape_init(un); 5910 if ((rval == EACCES) && (un->un_read_only & WORM)) { 5911 rval = 0; 5912 break; 5913 } 5914 5915 if (rval != 0) { 5916 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5917 "st_do_mtioctop : EIO : MTLOAD calls " 5918 "st_tape_init\n"); 5919 rval = EIO; 5920 un->un_state = ST_STATE_OFFLINE; 5921 } 5922 5923 break; 5924 5925 case MTNOP: 5926 un->un_status = 0; /* Reset status */ 5927 un->un_err_resid = 0; 5928 mtop->mt_count = MTUNIT(dev); 5929 break; 5930 5931 case MTEOM: 5932 /* 5933 * positions the tape at a location just after the last file 5934 * written on the tape. For cartridge and 8 mm, this after 5935 * the last file mark; for reel, this is inbetween the two 5936 * last 2 file marks 5937 */ 5938 if ((un->un_pos.pmode == legacy && un->un_pos.eof >= ST_EOT) || 5939 (un->un_lastop == ST_OP_WRITE) || 5940 (un->un_lastop == ST_OP_WEOF)) { 5941 /* 5942 * If the command wants to move to logical end 5943 * of media, and we're already there, we're done. 5944 * If we were at logical eot, we reset the state 5945 * to be *not* at logical eot. 5946 * 5947 * If we're at physical or logical eot, we prohibit 5948 * forward space operations (unconditionally). 5949 * 5950 * Also if the last operation was a write of any 5951 * kind the tape is at EOD. 5952 */ 5953 return (0); 5954 } 5955 /* 5956 * physical tape position may not be what we've been 5957 * telling the user; adjust the request accordingly 5958 */ 5959 if (IN_EOF(un->un_pos)) { 5960 un->un_pos.fileno++; 5961 un->un_pos.blkno = 0; 5962 } 5963 5964 if (st_check_density_or_wfm(dev, 1, B_READ, NO_STEPBACK)) { 5965 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5966 "st_do_mtioctop : EIO:MTEOM check density/wfm " 5967 " failed"); 5968 return (EIO); 5969 } 5970 5971 /* 5972 * st_find_eod() returns the last fileno we knew about; 5973 */ 5974 savefile = st_find_eod(un); 5975 5976 if ((un->un_status != KEY_BLANK_CHECK) && 5977 (un->un_status != SUN_KEY_EOT)) { 5978 un->un_pos.pmode = invalid; 5979 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 5980 "st_do_mtioctop : EIO : MTEOM status check failed"); 5981 rval = EIO; 5982 } else { 5983 /* 5984 * For 1/2" reel tapes assume logical EOT marked 5985 * by two file marks or we don't care that we may 5986 * be extending the last file on the tape. 5987 */ 5988 if (un->un_dp->options & ST_REEL) { 5989 if (st_cmd(un, SCMD_SPACE, Fmk(-1), SYNC_CMD)) { 5990 un->un_pos.pmode = invalid; 5991 ST_DEBUG2(ST_DEVINFO, st_label, 5992 SCSI_DEBUG, 5993 "st_do_mtioctop : EIO : MTEOM space" 5994 " cmd failed"); 5995 rval = EIO; 5996 break; 5997 } 5998 /* 5999 * Fix up the block number. 6000 */ 6001 un->un_pos.blkno = 0; 6002 un->un_err_pos.blkno = 0; 6003 } 6004 un->un_err_resid = 0; 6005 un->un_pos.fileno = savefile; 6006 un->un_pos.eof = ST_EOT; 6007 } 6008 un->un_status = 0; 6009 break; 6010 6011 case MTFSF: 6012 MAX_SPACE_CNT(mtop->mt_count); 6013 rval = st_mtfsf_ioctl(un, mtop->mt_count); 6014 break; 6015 6016 case MTFSR: 6017 MAX_SPACE_CNT(mtop->mt_count); 6018 rval = st_mtfsr_ioctl(un, mtop->mt_count); 6019 break; 6020 6021 case MTBSF: 6022 MAX_SPACE_CNT(mtop->mt_count); 6023 rval = st_mtbsf_ioctl(un, mtop->mt_count); 6024 break; 6025 6026 case MTNBSF: 6027 MAX_SPACE_CNT(mtop->mt_count); 6028 rval = st_mtnbsf_ioctl(un, mtop->mt_count); 6029 break; 6030 6031 case MTBSR: 6032 MAX_SPACE_CNT(mtop->mt_count); 6033 rval = st_mtbsr_ioctl(un, mtop->mt_count); 6034 break; 6035 6036 case MTBSSF: 6037 MAX_SPACE_CNT(mtop->mt_count); 6038 rval = st_mtbsfm_ioctl(un, mtop->mt_count); 6039 break; 6040 6041 case MTFSSF: 6042 MAX_SPACE_CNT(mtop->mt_count); 6043 rval = st_mtfsfm_ioctl(un, mtop->mt_count); 6044 break; 6045 6046 case MTSRSZ: 6047 6048 /* 6049 * Set record-size to that sent by user 6050 * Check to see if there is reason that the requested 6051 * block size should not be set. 6052 */ 6053 6054 /* If requesting variable block size is it ok? */ 6055 if ((mtop->mt_count == 0) && 6056 ((un->un_dp->options & ST_VARIABLE) == 0)) { 6057 return (ENOTTY); 6058 } 6059 6060 /* 6061 * If requested block size is not variable "0", 6062 * is it less then minimum. 6063 */ 6064 if ((mtop->mt_count != 0) && 6065 (mtop->mt_count < un->un_minbsize)) { 6066 return (EINVAL); 6067 } 6068 6069 /* Is the requested block size more then maximum */ 6070 if ((mtop->mt_count > min(un->un_maxbsize, un->un_maxdma)) && 6071 (un->un_maxbsize != 0)) { 6072 return (EINVAL); 6073 } 6074 6075 /* Is requested block size a modulus the device likes */ 6076 if ((mtop->mt_count % un->un_data_mod) != 0) { 6077 return (EINVAL); 6078 } 6079 6080 if (st_change_block_size(un, (uint32_t)mtop->mt_count) != 0) { 6081 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 6082 "st_ioctl : MTSRSZ : EIO : cant set block size"); 6083 return (EIO); 6084 } 6085 6086 return (0); 6087 6088 case MTGRSZ: 6089 /* 6090 * Get record-size to the user 6091 */ 6092 mtop->mt_count = un->un_bsize; 6093 rval = 0; 6094 break; 6095 6096 case MTTELL: 6097 rval = st_update_block_pos(un, st_cmd, 0); 6098 mtop->mt_count = un->un_pos.lgclblkno; 6099 break; 6100 6101 case MTSEEK: 6102 rval = st_logical_block_locate(un, st_uscsi_cmd, &un->un_pos, 6103 (uint64_t)mtop->mt_count, un->un_pos.partition); 6104 /* 6105 * This bit of magic make mt print the actual position if 6106 * the resulting position was not what was asked for. 6107 */ 6108 if (rval == ESPIPE) { 6109 rval = EIO; 6110 if ((uint64_t)mtop->mt_count != un->un_pos.lgclblkno) { 6111 mtop->mt_op = MTTELL; 6112 mtop->mt_count = un->un_pos.lgclblkno; 6113 } 6114 } 6115 break; 6116 6117 case MTLOCK: 6118 if (st_cmd(un, SCMD_DOORLOCK, MR_LOCK, SYNC_CMD)) { 6119 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 6120 "st_do_mtioctop : EIO : MTLOCK"); 6121 rval = EIO; 6122 } 6123 break; 6124 6125 case MTUNLOCK: 6126 if (st_cmd(un, SCMD_DOORLOCK, MR_UNLOCK, SYNC_CMD)) { 6127 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 6128 "st_do_mtioctop : EIO : MTUNLOCK"); 6129 rval = EIO; 6130 } 6131 break; 6132 6133 default: 6134 rval = ENOTTY; 6135 } 6136 6137 return (rval); 6138 } 6139 6140 6141 /* 6142 * Run a command for uscsi ioctl. 6143 */ 6144 static int 6145 st_uscsi_cmd(struct scsi_tape *un, struct uscsi_cmd *ucmd, int flag) 6146 { 6147 struct uscsi_cmd *uscmd; 6148 struct buf *bp; 6149 enum uio_seg uioseg; 6150 int offline_state = 0; 6151 int err = 0; 6152 dev_t dev = un->un_dev; 6153 6154 ST_FUNC(ST_DEVINFO, st_uscsi_cmd); 6155 6156 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 6157 "st_uscsi_cmd(dev = 0x%lx)\n", un->un_dev); 6158 6159 ASSERT(mutex_owned(ST_MUTEX)); 6160 6161 /* 6162 * We really don't know what commands are coming in here and 6163 * we don't want to limit the commands coming in. 6164 * 6165 * If st_tape_init() gets called from st_strategy(), then we 6166 * will hang the process waiting for un->un_sbuf_busy to be cleared, 6167 * which it never will, as we set it below. To prevent 6168 * st_tape_init() from getting called, we have to set state to other 6169 * than ST_STATE_OFFLINE, so we choose ST_STATE_INITIALIZING, which 6170 * achieves this purpose already. 6171 * 6172 * We use offline_state to preserve the OFFLINE state, if it exists, 6173 * so other entry points to the driver might have the chance to call 6174 * st_tape_init(). 6175 */ 6176 if (un->un_state == ST_STATE_OFFLINE) { 6177 un->un_laststate = ST_STATE_OFFLINE; 6178 un->un_state = ST_STATE_INITIALIZING; 6179 offline_state = 1; 6180 } 6181 6182 mutex_exit(ST_MUTEX); 6183 err = scsi_uscsi_alloc_and_copyin((intptr_t)ucmd, flag, ROUTE, &uscmd); 6184 mutex_enter(ST_MUTEX); 6185 if (err != 0) { 6186 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 6187 "st_uscsi_cmd: scsi_uscsi_alloc_and_copyin failed\n"); 6188 goto exit; 6189 } 6190 6191 uioseg = (flag & FKIOCTL) ? UIO_SYSSPACE : UIO_USERSPACE; 6192 6193 /* check to see if this command requires the drive to be reserved */ 6194 if (uscmd->uscsi_cdb != NULL) { 6195 err = st_check_cdb_for_need_to_reserve(un, 6196 (uchar_t *)uscmd->uscsi_cdb); 6197 if (err) { 6198 goto exit_free; 6199 } 6200 /* 6201 * If this is a space command we need to save the starting 6202 * point so we can retry from there if the command fails. 6203 */ 6204 if ((uscmd->uscsi_cdb[0] == SCMD_SPACE) || 6205 (uscmd->uscsi_cdb[0] == (char)SCMD_SPACE_G4)) { 6206 (void) st_update_block_pos(un, st_cmd, 0); 6207 } 6208 } 6209 6210 /* 6211 * Forground should not be doing anything while recovery is active. 6212 */ 6213 ASSERT(un->un_recov_buf_busy == 0); 6214 6215 /* 6216 * Get buffer resources... 6217 */ 6218 while (un->un_sbuf_busy) 6219 cv_wait(&un->un_sbuf_cv, ST_MUTEX); 6220 un->un_sbuf_busy = 1; 6221 6222 #ifdef STDEBUG 6223 if ((uscmd->uscsi_cdb != NULL) && (st_debug & 0x7) > 6) { 6224 int rw = (uscmd->uscsi_flags & USCSI_READ) ? B_READ : B_WRITE; 6225 st_print_cdb(ST_DEVINFO, st_label, SCSI_DEBUG, 6226 "uscsi cdb", uscmd->uscsi_cdb); 6227 if (uscmd->uscsi_buflen) { 6228 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 6229 "uscsi %s of %ld bytes %s %s space\n", 6230 (rw == B_READ) ? rd_str : wr_str, 6231 uscmd->uscsi_buflen, 6232 (rw == B_READ) ? "to" : "from", 6233 (uioseg == UIO_SYSSPACE) ? "system" : "user"); 6234 } 6235 } 6236 #endif /* STDEBUG */ 6237 6238 /* 6239 * Although st_uscsi_cmd() never makes use of these 6240 * now, we are just being safe and consistent. 6241 */ 6242 uscmd->uscsi_flags &= ~(USCSI_NOINTR | USCSI_NOPARITY | 6243 USCSI_OTAG | USCSI_HTAG | USCSI_HEAD); 6244 6245 un->un_srqbufp = uscmd->uscsi_rqbuf; 6246 bp = un->un_sbufp; 6247 bzero(bp, sizeof (buf_t)); 6248 if (uscmd->uscsi_cdb != NULL) { 6249 bp->b_forw = (struct buf *)(uintptr_t)uscmd->uscsi_cdb[0]; 6250 } 6251 bp->b_back = (struct buf *)uscmd; 6252 6253 mutex_exit(ST_MUTEX); 6254 err = scsi_uscsi_handle_cmd(dev, uioseg, uscmd, st_strategy, bp, NULL); 6255 mutex_enter(ST_MUTEX); 6256 6257 /* 6258 * If scsi reset successful, don't write any filemarks. 6259 */ 6260 if ((err == 0) && (uscmd->uscsi_flags & 6261 (USCSI_RESET_LUN | USCSI_RESET_TARGET | USCSI_RESET_ALL))) { 6262 un->un_fmneeded = 0; 6263 } 6264 6265 exit_free: 6266 /* 6267 * Free resources 6268 */ 6269 un->un_sbuf_busy = 0; 6270 un->un_srqbufp = NULL; 6271 6272 /* 6273 * If was a space command need to update logical block position. 6274 * If the command failed such that positioning is invalid, Don't 6275 * update the position as the user must do this to validate the 6276 * position for data protection. 6277 */ 6278 if ((uscmd->uscsi_cdb != NULL) && 6279 ((uscmd->uscsi_cdb[0] == SCMD_SPACE) || 6280 (uscmd->uscsi_cdb[0] == (char)SCMD_SPACE_G4)) && 6281 (un->un_pos.pmode != invalid)) { 6282 un->un_running.pmode = invalid; 6283 (void) st_update_block_pos(un, st_cmd, 1); 6284 /* 6285 * Set running position to invalid so it updates on the 6286 * next command. 6287 */ 6288 un->un_running.pmode = invalid; 6289 } 6290 cv_signal(&un->un_sbuf_cv); 6291 mutex_exit(ST_MUTEX); 6292 (void) scsi_uscsi_copyout_and_free((intptr_t)ucmd, uscmd); 6293 mutex_enter(ST_MUTEX); 6294 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 6295 "st_uscsi_cmd returns 0x%x\n", err); 6296 6297 exit: 6298 /* don't lose offline state */ 6299 if (offline_state) { 6300 un->un_state = ST_STATE_OFFLINE; 6301 } 6302 6303 ASSERT(mutex_owned(ST_MUTEX)); 6304 return (err); 6305 } 6306 6307 static int 6308 st_write_fm(dev_t dev, int wfm) 6309 { 6310 int i; 6311 int rval; 6312 6313 GET_SOFT_STATE(dev); 6314 6315 ST_FUNC(ST_DEVINFO, st_write_fm); 6316 6317 ASSERT(mutex_owned(ST_MUTEX)); 6318 6319 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 6320 "st_write_fm(dev = 0x%lx, wfm = %d)\n", dev, wfm); 6321 6322 /* 6323 * write one filemark at the time after EOT 6324 */ 6325 if (un->un_pos.eof >= ST_EOT) { 6326 for (i = 0; i < wfm; i++) { 6327 rval = st_cmd(un, SCMD_WRITE_FILE_MARK, 1, SYNC_CMD); 6328 if (rval == EACCES) { 6329 return (rval); 6330 } 6331 if (rval != 0) { 6332 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 6333 "st_write_fm : EIO : write EOT file mark"); 6334 return (EIO); 6335 } 6336 } 6337 } else { 6338 rval = st_cmd(un, SCMD_WRITE_FILE_MARK, wfm, SYNC_CMD); 6339 if (rval == EACCES) { 6340 return (rval); 6341 } 6342 if (rval) { 6343 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 6344 "st_write_fm : EIO : write file mark"); 6345 return (EIO); 6346 } 6347 } 6348 6349 ASSERT(mutex_owned(ST_MUTEX)); 6350 return (0); 6351 } 6352 6353 #ifdef STDEBUG 6354 static void 6355 st_start_dump(struct scsi_tape *un, struct buf *bp) 6356 { 6357 struct scsi_pkt *pkt = BP_PKT(bp); 6358 uchar_t *cdbp = (uchar_t *)pkt->pkt_cdbp; 6359 6360 ST_FUNC(ST_DEVINFO, st_start_dump); 6361 6362 if ((st_debug & 0x7) < 6) 6363 return; 6364 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 6365 "st_start: cmd=0x%p count=%ld resid=%ld flags=0x%x pkt=0x%p\n", 6366 (void *)bp->b_forw, bp->b_bcount, 6367 bp->b_resid, bp->b_flags, (void *)BP_PKT(bp)); 6368 st_print_cdb(ST_DEVINFO, st_label, SCSI_DEBUG, 6369 "st_start: cdb", (caddr_t)cdbp); 6370 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 6371 "st_start: fileno=%d, blk=%d\n", 6372 un->un_pos.fileno, un->un_pos.blkno); 6373 } 6374 #endif 6375 6376 6377 /* 6378 * Command start && done functions 6379 */ 6380 6381 /* 6382 * st_start() 6383 * 6384 * Called from: 6385 * st_strategy() to start a command. 6386 * st_runout() to retry when scsi_pkt allocation fails on previous attempt(s). 6387 * st_attach() when resuming from power down state. 6388 * st_start_restart() to retry transport when device was previously busy. 6389 * st_done_and_mutex_exit() to start the next command when previous is done. 6390 * 6391 * On entry: 6392 * scsi_pkt may or may not be allocated. 6393 * 6394 */ 6395 static void 6396 st_start(struct scsi_tape *un) 6397 { 6398 struct buf *bp; 6399 int status; 6400 int queued; 6401 6402 ST_FUNC(ST_DEVINFO, st_start); 6403 ASSERT(mutex_owned(ST_MUTEX)); 6404 6405 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 6406 "st_start(): dev = 0x%lx\n", un->un_dev); 6407 6408 if (un->un_recov_buf_busy) { 6409 /* recovery commands can happen anytime */ 6410 bp = un->un_recov_buf; 6411 queued = 0; 6412 } else if (un->un_sbuf_busy) { 6413 /* sbuf commands should only happen with an empty queue. */ 6414 ASSERT(un->un_quef == NULL); 6415 ASSERT(un->un_runqf == NULL); 6416 bp = un->un_sbufp; 6417 queued = 0; 6418 } else if (un->un_quef != NULL) { 6419 if (un->un_persistence && un->un_persist_errors) { 6420 return; 6421 } 6422 bp = un->un_quef; 6423 queued = 1; 6424 } else { 6425 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 6426 "st_start() returning no buf found\n"); 6427 return; 6428 } 6429 6430 ASSERT((bp->b_flags & B_DONE) == 0); 6431 6432 /* 6433 * Don't send more than un_throttle commands to the HBA 6434 */ 6435 if ((un->un_throttle <= 0) || (un->un_ncmds >= un->un_throttle)) { 6436 /* 6437 * if doing recovery we know there is outstanding commands. 6438 */ 6439 if (bp != un->un_recov_buf) { 6440 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 6441 "st_start returning throttle = %d or ncmds = %d\n", 6442 un->un_throttle, un->un_ncmds); 6443 if (un->un_ncmds == 0) { 6444 typedef void (*func)(); 6445 func fnc = (func)st_runout; 6446 6447 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 6448 "Sending delayed start to st_runout()\n"); 6449 mutex_exit(ST_MUTEX); 6450 (void) timeout(fnc, un, drv_usectohz(1000000)); 6451 mutex_enter(ST_MUTEX); 6452 } 6453 return; 6454 } 6455 } 6456 6457 /* 6458 * If the buf has no scsi_pkt call st_make_cmd() to get one and 6459 * build the command. 6460 */ 6461 if (BP_PKT(bp) == NULL) { 6462 ASSERT((bp->b_flags & B_DONE) == 0); 6463 st_make_cmd(un, bp, st_runout); 6464 ASSERT((bp->b_flags & B_DONE) == 0); 6465 status = geterror(bp); 6466 6467 /* 6468 * Some HBA's don't call bioerror() to set an error. 6469 * And geterror() returns zero if B_ERROR is not set. 6470 * So if we get zero we must check b_error. 6471 */ 6472 if (status == 0 && bp->b_error != 0) { 6473 status = bp->b_error; 6474 bioerror(bp, status); 6475 } 6476 6477 /* 6478 * Some HBA's convert DDI_DMA_NORESOURCES into ENOMEM. 6479 * In tape ENOMEM has special meaning so we'll change it. 6480 */ 6481 if (status == ENOMEM) { 6482 status = 0; 6483 bioerror(bp, status); 6484 } 6485 6486 /* 6487 * Did it fail and is it retryable? 6488 * If so return and wait for the callback through st_runout. 6489 * Also looks like scsi_init_pkt() will setup a callback even 6490 * if it isn't retryable. 6491 */ 6492 if (BP_PKT(bp) == NULL) { 6493 if (status == 0) { 6494 /* 6495 * If first attempt save state. 6496 */ 6497 if (un->un_state != ST_STATE_RESOURCE_WAIT) { 6498 un->un_laststate = un->un_state; 6499 un->un_state = ST_STATE_RESOURCE_WAIT; 6500 } 6501 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 6502 "temp no resources for pkt\n"); 6503 } else if (status == EINVAL) { 6504 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 6505 "scsi_init_pkt rejected pkt as too big\n"); 6506 if (un->un_persistence) { 6507 st_set_pe_flag(un); 6508 } 6509 } else { 6510 /* 6511 * Unlikely that it would be retryable then not. 6512 */ 6513 if (un->un_state == ST_STATE_RESOURCE_WAIT) { 6514 un->un_state = un->un_laststate; 6515 } 6516 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 6517 "perm no resources for pkt errno = 0x%x\n", 6518 status); 6519 } 6520 return; 6521 } 6522 /* 6523 * Worked this time set the state back. 6524 */ 6525 if (un->un_state == ST_STATE_RESOURCE_WAIT) { 6526 un->un_state = un->un_laststate; 6527 } 6528 } 6529 6530 if (queued) { 6531 /* 6532 * move from waitq to runq 6533 */ 6534 (void) st_remove_from_queue(&un->un_quef, &un->un_quel, bp); 6535 st_add_to_queue(&un->un_runqf, &un->un_runql, un->un_runql, bp); 6536 } 6537 6538 6539 #ifdef STDEBUG 6540 st_start_dump(un, bp); 6541 #endif 6542 6543 /* could not get here if throttle was zero */ 6544 un->un_last_throttle = un->un_throttle; 6545 un->un_throttle = 0; /* so nothing else will come in here */ 6546 un->un_ncmds++; 6547 6548 ST_DO_KSTATS(bp, kstat_waitq_to_runq); 6549 6550 status = st_transport(un, BP_PKT(bp)); 6551 6552 if (un->un_last_throttle) { 6553 un->un_throttle = un->un_last_throttle; 6554 } 6555 6556 if (status != TRAN_ACCEPT) { 6557 ST_DO_KSTATS(bp, kstat_runq_back_to_waitq); 6558 ST_DEBUG(ST_DEVINFO, st_label, CE_WARN, 6559 "Unhappy transport packet status 0x%x\n", status); 6560 6561 if (status == TRAN_BUSY) { 6562 pkt_info *pkti = BP_PKT(bp)->pkt_private; 6563 6564 /* 6565 * If command recovery is enabled and this isn't 6566 * a recovery command try command recovery. 6567 */ 6568 if (pkti->privatelen == sizeof (recov_info) && 6569 bp != un->un_recov_buf) { 6570 ST_RECOV(ST_DEVINFO, st_label, CE_WARN, 6571 "Command Recovery called on busy send\n"); 6572 if (st_command_recovery(un, BP_PKT(bp), 6573 ATTEMPT_RETRY) == JUST_RETURN) { 6574 return; 6575 } 6576 } else { 6577 mutex_exit(ST_MUTEX); 6578 if (st_handle_start_busy(un, bp, 6579 ST_TRAN_BUSY_TIMEOUT, queued) == 0) { 6580 mutex_enter(ST_MUTEX); 6581 return; 6582 } 6583 /* 6584 * if too many retries, fail the transport 6585 */ 6586 mutex_enter(ST_MUTEX); 6587 } 6588 } 6589 scsi_log(ST_DEVINFO, st_label, CE_WARN, 6590 "transport rejected %d\n", status); 6591 bp->b_resid = bp->b_bcount; 6592 6593 ST_DO_KSTATS(bp, kstat_waitq_exit); 6594 ST_DO_ERRSTATS(un, st_transerrs); 6595 if ((bp == un->un_recov_buf) && (status == TRAN_BUSY)) { 6596 st_bioerror(bp, EBUSY); 6597 } else { 6598 st_bioerror(bp, EIO); 6599 st_set_pe_flag(un); 6600 } 6601 st_done_and_mutex_exit(un, bp); 6602 mutex_enter(ST_MUTEX); 6603 } 6604 6605 ASSERT(mutex_owned(ST_MUTEX)); 6606 } 6607 6608 /* 6609 * if the transport is busy, then put this bp back on the waitq 6610 */ 6611 static int 6612 st_handle_start_busy(struct scsi_tape *un, struct buf *bp, 6613 clock_t timeout_interval, int queued) 6614 { 6615 6616 pkt_info *pktinfo = BP_PKT(bp)->pkt_private; 6617 6618 ST_FUNC(ST_DEVINFO, st_handle_start_busy); 6619 6620 mutex_enter(ST_MUTEX); 6621 6622 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 6623 "st_handle_start_busy()\n"); 6624 6625 /* 6626 * Check to see if we hit the retry timeout and one last check for 6627 * making sure this is the last on the runq, if it is not, we have 6628 * to fail 6629 */ 6630 if ((pktinfo->str_retry_cnt++ > st_retry_count) || 6631 ((queued) && (un->un_runql != bp))) { 6632 mutex_exit(ST_MUTEX); 6633 return (-1); 6634 } 6635 6636 if (queued) { 6637 /* put the bp back on the waitq */ 6638 st_add_to_queue(&un->un_quef, &un->un_quel, un->un_quef, bp); 6639 } 6640 6641 /* 6642 * Decrement un_ncmds so that this 6643 * gets thru' st_start() again. 6644 */ 6645 un->un_ncmds--; 6646 6647 if (queued) { 6648 /* 6649 * since this is an error case, we won't have to do this list 6650 * walking much. We've already made sure this bp was the 6651 * last on the runq 6652 */ 6653 (void) st_remove_from_queue(&un->un_runqf, &un->un_runql, bp); 6654 6655 /* 6656 * send a marker pkt, if appropriate 6657 */ 6658 st_hba_unflush(un); 6659 6660 } 6661 /* 6662 * all queues are aligned, we are just waiting to 6663 * transport, don't alloc any more buf p's, when 6664 * st_start is reentered. 6665 */ 6666 (void) timeout(st_start_restart, un, timeout_interval); 6667 6668 mutex_exit(ST_MUTEX); 6669 return (0); 6670 } 6671 6672 6673 /* 6674 * st_runout a callback that is called what a resource allocatation failed 6675 */ 6676 static int 6677 st_runout(caddr_t arg) 6678 { 6679 struct scsi_tape *un = (struct scsi_tape *)arg; 6680 struct buf *bp; 6681 int queued; 6682 6683 ASSERT(un != NULL); 6684 6685 ST_FUNC(ST_DEVINFO, st_runout); 6686 6687 mutex_enter(ST_MUTEX); 6688 6689 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, "st_runout()\n"); 6690 6691 if (un->un_recov_buf_busy != 0) { 6692 bp = un->un_recov_buf; 6693 queued = 0; 6694 } else if (un->un_sbuf_busy != 0) { 6695 /* sbuf commands should only happen with an empty queue. */ 6696 ASSERT(un->un_quef == NULL); 6697 ASSERT(un->un_runqf == NULL); 6698 bp = un->un_sbufp; 6699 queued = 0; 6700 } else if (un->un_quef != NULL) { 6701 bp = un->un_quef; 6702 if (un->un_persistence && un->un_persist_errors) { 6703 mutex_exit(ST_MUTEX); 6704 bp->b_resid = bp->b_bcount; 6705 biodone(bp); 6706 return (1); 6707 } 6708 queued = 1; 6709 } else { 6710 ASSERT(1 == 0); 6711 mutex_exit(ST_MUTEX); 6712 return (1); 6713 } 6714 6715 /* 6716 * failed scsi_init_pkt(). If errno is zero its retryable. 6717 */ 6718 if ((bp != NULL) && (geterror(bp) != 0)) { 6719 6720 scsi_log(ST_DEVINFO, st_label, CE_WARN, 6721 "errors after pkt alloc (b_flags=0x%x, b_error=0x%x)\n", 6722 bp->b_flags, geterror(bp)); 6723 ASSERT((bp->b_flags & B_DONE) == 0); 6724 6725 if (queued) { 6726 (void) st_remove_from_queue(&un->un_quef, &un->un_quel, 6727 bp); 6728 } 6729 mutex_exit(ST_MUTEX); 6730 6731 ASSERT((bp->b_flags & B_DONE) == 0); 6732 6733 /* 6734 * Set resid, Error already set, then unblock calling thread. 6735 */ 6736 bp->b_resid = bp->b_bcount; 6737 biodone(bp); 6738 } else { 6739 /* 6740 * Try Again 6741 */ 6742 st_start(un); 6743 mutex_exit(ST_MUTEX); 6744 } 6745 6746 /* 6747 * Comments courtesy of sd.c 6748 * The scsi_init_pkt routine allows for the callback function to 6749 * return a 0 indicating the callback should be rescheduled or a 1 6750 * indicating not to reschedule. This routine always returns 1 6751 * because the driver always provides a callback function to 6752 * scsi_init_pkt. This results in a callback always being scheduled 6753 * (via the scsi_init_pkt callback implementation) if a resource 6754 * failure occurs. 6755 */ 6756 6757 return (1); 6758 } 6759 6760 /* 6761 * st_done_and_mutex_exit() 6762 * - remove bp from runq 6763 * - start up the next request 6764 * - if this was an asynch bp, clean up 6765 * - exit with released mutex 6766 */ 6767 static void 6768 st_done_and_mutex_exit(struct scsi_tape *un, struct buf *bp) 6769 { 6770 int pe_flagged = 0; 6771 struct scsi_pkt *pkt = BP_PKT(bp); 6772 pkt_info *pktinfo = pkt->pkt_private; 6773 6774 ASSERT(MUTEX_HELD(&un->un_sd->sd_mutex)); 6775 #if !defined(lint) 6776 _NOTE(LOCK_RELEASED_AS_SIDE_EFFECT(&un->un_sd->sd_mutex)) 6777 #endif 6778 6779 ST_FUNC(ST_DEVINFO, st_done_and_mutex_exit); 6780 6781 ASSERT(mutex_owned(ST_MUTEX)); 6782 6783 (void) st_remove_from_queue(&un->un_runqf, &un->un_runql, bp); 6784 6785 un->un_ncmds--; 6786 cv_signal(&un->un_queue_cv); 6787 6788 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 6789 "st_done_and_mutex_exit(): cmd=0x%x count=%ld resid=%ld flags=" 6790 "0x%x\n", pkt->pkt_cdbp[0], bp->b_bcount, 6791 bp->b_resid, bp->b_flags); 6792 6793 6794 /* 6795 * update kstats with transfer count info 6796 */ 6797 if (un->un_stats && (bp != un->un_sbufp) && IS_RW(bp)) { 6798 uint32_t n_done = bp->b_bcount - bp->b_resid; 6799 if (bp->b_flags & B_READ) { 6800 IOSP->reads++; 6801 IOSP->nread += n_done; 6802 } else { 6803 IOSP->writes++; 6804 IOSP->nwritten += n_done; 6805 } 6806 } 6807 6808 /* 6809 * Start the next one before releasing resources on this one, if 6810 * there is something on the queue and persistent errors has not been 6811 * flagged 6812 */ 6813 6814 if ((pe_flagged = (un->un_persistence && un->un_persist_errors)) != 0) { 6815 un->un_last_resid = bp->b_resid; 6816 un->un_last_count = bp->b_bcount; 6817 } 6818 6819 if (un->un_pwr_mgmt == ST_PWR_SUSPENDED) { 6820 cv_broadcast(&un->un_tape_busy_cv); 6821 } else if (un->un_quef && un->un_throttle && !pe_flagged && 6822 (bp != un->un_recov_buf)) { 6823 st_start(un); 6824 } 6825 6826 un->un_retry_ct = max(pktinfo->pkt_retry_cnt, pktinfo->str_retry_cnt); 6827 6828 if (bp == un->un_sbufp && (bp->b_flags & B_ASYNC)) { 6829 /* 6830 * Since we marked this ourselves as ASYNC, 6831 * there isn't anybody around waiting for 6832 * completion any more. 6833 */ 6834 uchar_t *cmd = pkt->pkt_cdbp; 6835 if (*cmd == SCMD_READ || *cmd == SCMD_WRITE) { 6836 bp->b_un.b_addr = (caddr_t)0; 6837 } 6838 ST_DEBUG(ST_DEVINFO, st_label, CE_NOTE, 6839 "st_done_and_mutex_exit(async): freeing pkt\n"); 6840 st_print_cdb(ST_DEVINFO, st_label, CE_NOTE, 6841 "CDB sent with B_ASYNC", (caddr_t)cmd); 6842 if (pkt) { 6843 scsi_destroy_pkt(pkt); 6844 } 6845 un->un_sbuf_busy = 0; 6846 cv_signal(&un->un_sbuf_cv); 6847 mutex_exit(ST_MUTEX); 6848 return; 6849 } 6850 6851 if (bp == un->un_sbufp && BP_UCMD(bp)) { 6852 /* 6853 * Copy status from scsi_pkt to uscsi_cmd 6854 * since st_uscsi_cmd needs it 6855 */ 6856 BP_UCMD(bp)->uscsi_status = SCBP_C(BP_PKT(bp)); 6857 } 6858 6859 6860 #ifdef STDEBUG 6861 if (((st_debug & 0x7) >= 4) && 6862 (((un->un_pos.blkno % 100) == 0) || 6863 (un->un_persistence && un->un_persist_errors))) { 6864 6865 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 6866 "st_d_a_m_exit(): ncmds = %d, thr = %d, " 6867 "un_errno = %d, un_pe = %d\n", 6868 un->un_ncmds, un->un_throttle, un->un_errno, 6869 un->un_persist_errors); 6870 } 6871 6872 #endif 6873 6874 mutex_exit(ST_MUTEX); 6875 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 6876 "st_done_and_mutex_exit: freeing pkt\n"); 6877 6878 if (pkt) { 6879 scsi_destroy_pkt(pkt); 6880 } 6881 6882 biodone(bp); 6883 6884 /* 6885 * now that we biodoned that command, if persistent errors have been 6886 * flagged, flush the waitq 6887 */ 6888 if (pe_flagged) 6889 st_flush(un); 6890 } 6891 6892 6893 /* 6894 * Tape error, flush tape driver queue. 6895 */ 6896 static void 6897 st_flush(struct scsi_tape *un) 6898 { 6899 struct buf *bp; 6900 6901 ST_FUNC(ST_DEVINFO, st_flush); 6902 6903 mutex_enter(ST_MUTEX); 6904 6905 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 6906 "st_flush(), ncmds = %d, quef = 0x%p\n", 6907 un->un_ncmds, (void *)un->un_quef); 6908 6909 /* 6910 * if we still have commands outstanding, wait for them to come in 6911 * before flushing the queue, and make sure there is a queue 6912 */ 6913 if (un->un_ncmds || !un->un_quef) 6914 goto exit; 6915 6916 /* 6917 * we have no more commands outstanding, so let's deal with special 6918 * cases in the queue for EOM and FM. If we are here, and un_errno 6919 * is 0, then we know there was no error and we return a 0 read or 6920 * write before showing errors 6921 */ 6922 6923 /* Flush the wait queue. */ 6924 while ((bp = un->un_quef) != NULL) { 6925 un->un_quef = bp->b_actf; 6926 6927 bp->b_resid = bp->b_bcount; 6928 6929 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 6930 "st_flush() : blkno=%d, err=%d, b_bcount=%ld\n", 6931 un->un_pos.blkno, un->un_errno, bp->b_bcount); 6932 6933 st_set_pe_errno(un); 6934 6935 bioerror(bp, un->un_errno); 6936 6937 mutex_exit(ST_MUTEX); 6938 /* it should have one, but check anyway */ 6939 if (BP_PKT(bp)) { 6940 scsi_destroy_pkt(BP_PKT(bp)); 6941 } 6942 biodone(bp); 6943 mutex_enter(ST_MUTEX); 6944 } 6945 6946 /* 6947 * It's not a bad practice to reset the 6948 * waitq tail pointer to NULL. 6949 */ 6950 un->un_quel = NULL; 6951 6952 exit: 6953 /* we mucked with the queue, so let others know about it */ 6954 cv_signal(&un->un_queue_cv); 6955 mutex_exit(ST_MUTEX); 6956 } 6957 6958 6959 /* 6960 * Utility functions 6961 */ 6962 static int 6963 st_determine_generic(struct scsi_tape *un) 6964 { 6965 int bsize; 6966 static char *cart = "0.25 inch cartridge"; 6967 char *sizestr; 6968 6969 ST_FUNC(ST_DEVINFO, st_determine_generic); 6970 6971 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 6972 "st_determine_generic(un = 0x%p)\n", (void*)un); 6973 6974 ASSERT(mutex_owned(ST_MUTEX)); 6975 6976 if (st_modesense(un)) { 6977 return (-1); 6978 } 6979 6980 bsize = (un->un_mspl->high_bl << 16) | 6981 (un->un_mspl->mid_bl << 8) | 6982 (un->un_mspl->low_bl); 6983 6984 if (bsize == 0) { 6985 un->un_dp->options |= ST_VARIABLE; 6986 un->un_dp->bsize = 0; 6987 un->un_bsize = 0; 6988 } else if (bsize > ST_MAXRECSIZE_FIXED) { 6989 /* 6990 * record size of this device too big. 6991 * try and convert it to variable record length. 6992 * 6993 */ 6994 un->un_dp->options |= ST_VARIABLE; 6995 if (st_change_block_size(un, 0) != 0) { 6996 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 6997 "Fixed Record Size %d is too large\n", bsize); 6998 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 6999 "Cannot switch to variable record size\n"); 7000 un->un_dp->options &= ~ST_VARIABLE; 7001 return (-1); 7002 } 7003 } else if (st_change_block_size(un, 0) == 0) { 7004 /* 7005 * If the drive was set to a non zero block size, 7006 * See if it can be set to a zero block size. 7007 * If it works, ST_VARIABLE so user can set it as they want. 7008 */ 7009 un->un_dp->options |= ST_VARIABLE; 7010 un->un_dp->bsize = 0; 7011 un->un_bsize = 0; 7012 } else { 7013 un->un_dp->bsize = bsize; 7014 un->un_bsize = bsize; 7015 } 7016 7017 7018 switch (un->un_mspl->density) { 7019 default: 7020 case 0x0: 7021 /* 7022 * default density, cannot determine any other 7023 * information. 7024 */ 7025 sizestr = "Unknown type- assuming 0.25 inch cartridge"; 7026 un->un_dp->type = ST_TYPE_DEFAULT; 7027 un->un_dp->options |= (ST_AUTODEN_OVERRIDE|ST_QIC); 7028 break; 7029 case 0x1: 7030 case 0x2: 7031 case 0x3: 7032 case 0x6: 7033 /* 7034 * 1/2" reel 7035 */ 7036 sizestr = "0.50 inch reel"; 7037 un->un_dp->type = ST_TYPE_REEL; 7038 un->un_dp->options |= ST_REEL; 7039 un->un_dp->densities[0] = 0x1; 7040 un->un_dp->densities[1] = 0x2; 7041 un->un_dp->densities[2] = 0x6; 7042 un->un_dp->densities[3] = 0x3; 7043 break; 7044 case 0x4: 7045 case 0x5: 7046 case 0x7: 7047 case 0x0b: 7048 7049 /* 7050 * Quarter inch. 7051 */ 7052 sizestr = cart; 7053 un->un_dp->type = ST_TYPE_DEFAULT; 7054 un->un_dp->options |= ST_QIC; 7055 7056 un->un_dp->densities[1] = 0x4; 7057 un->un_dp->densities[2] = 0x5; 7058 un->un_dp->densities[3] = 0x7; 7059 un->un_dp->densities[0] = 0x0b; 7060 break; 7061 7062 case 0x0f: 7063 case 0x10: 7064 case 0x11: 7065 case 0x12: 7066 /* 7067 * QIC-120, QIC-150, QIC-320, QIC-600 7068 */ 7069 sizestr = cart; 7070 un->un_dp->type = ST_TYPE_DEFAULT; 7071 un->un_dp->options |= ST_QIC; 7072 un->un_dp->densities[0] = 0x0f; 7073 un->un_dp->densities[1] = 0x10; 7074 un->un_dp->densities[2] = 0x11; 7075 un->un_dp->densities[3] = 0x12; 7076 break; 7077 7078 case 0x09: 7079 case 0x0a: 7080 case 0x0c: 7081 case 0x0d: 7082 /* 7083 * 1/2" cartridge tapes. Include HI-TC. 7084 */ 7085 sizestr = cart; 7086 sizestr[2] = '5'; 7087 sizestr[3] = '0'; 7088 un->un_dp->type = ST_TYPE_HIC; 7089 un->un_dp->densities[0] = 0x09; 7090 un->un_dp->densities[1] = 0x0a; 7091 un->un_dp->densities[2] = 0x0c; 7092 un->un_dp->densities[3] = 0x0d; 7093 break; 7094 7095 case 0x13: 7096 /* DDS-2/DDS-3 scsi spec densities */ 7097 case 0x24: 7098 case 0x25: 7099 case 0x26: 7100 sizestr = "DAT Data Storage (DDS)"; 7101 un->un_dp->type = ST_TYPE_DAT; 7102 un->un_dp->options |= ST_AUTODEN_OVERRIDE; 7103 break; 7104 7105 case 0x14: 7106 /* 7107 * Helical Scan (Exabyte) devices 7108 */ 7109 sizestr = "8mm helical scan cartridge"; 7110 un->un_dp->type = ST_TYPE_EXABYTE; 7111 un->un_dp->options |= ST_AUTODEN_OVERRIDE; 7112 break; 7113 } 7114 7115 /* 7116 * Assume LONG ERASE, BSF and BSR 7117 */ 7118 7119 un->un_dp->options |= 7120 (ST_LONG_ERASE | ST_UNLOADABLE | ST_BSF | ST_BSR | ST_KNOWS_EOD); 7121 7122 /* 7123 * Only if mode sense data says no buffered write, set NOBUF 7124 */ 7125 if (un->un_mspl->bufm == 0) 7126 un->un_dp->options |= ST_NOBUF; 7127 7128 /* 7129 * set up large read and write retry counts 7130 */ 7131 7132 un->un_dp->max_rretries = un->un_dp->max_wretries = 1000; 7133 7134 /* 7135 * If this is a 0.50 inch reel tape, and 7136 * it is *not* variable mode, try and 7137 * set it to variable record length 7138 * mode. 7139 */ 7140 if ((un->un_dp->options & ST_REEL) && un->un_bsize != 0 && 7141 (un->un_dp->options & ST_VARIABLE)) { 7142 if (st_change_block_size(un, 0) == 0) { 7143 un->un_dp->bsize = 0; 7144 un->un_mspl->high_bl = un->un_mspl->mid_bl = 7145 un->un_mspl->low_bl = 0; 7146 } 7147 } 7148 7149 /* 7150 * Write to console about type of device found 7151 */ 7152 ST_DEBUG6(ST_DEVINFO, st_label, CE_NOTE, 7153 "Generic Drive, Vendor=%s\n\t%s", un->un_dp->name, 7154 sizestr); 7155 if (un->un_dp->options & ST_VARIABLE) { 7156 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 7157 "!Variable record length I/O\n"); 7158 } else { 7159 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 7160 "!Fixed record length (%d byte blocks) I/O\n", 7161 un->un_dp->bsize); 7162 } 7163 ASSERT(mutex_owned(ST_MUTEX)); 7164 return (0); 7165 } 7166 7167 static int 7168 st_determine_density(struct scsi_tape *un, int rw) 7169 { 7170 int rval = 0; 7171 7172 ST_FUNC(ST_DEVINFO, st_determine_density); 7173 7174 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 7175 "st_determine_density(un = 0x%p, rw = %s)\n", 7176 (void*)un, (rw == B_WRITE ? wr_str: rd_str)); 7177 7178 ASSERT(mutex_owned(ST_MUTEX)); 7179 7180 /* 7181 * If we're past BOT, density is determined already. 7182 */ 7183 if (un->un_pos.pmode == logical) { 7184 if (un->un_pos.lgclblkno != 0) { 7185 goto exit; 7186 } 7187 } else if (un->un_pos.pmode == legacy) { 7188 if ((un->un_pos.fileno != 0) || (un->un_pos.blkno != 0)) { 7189 /* 7190 * XXX: put in a bitch message about attempting to 7191 * XXX: change density past BOT. 7192 */ 7193 goto exit; 7194 } 7195 } else { 7196 goto exit; 7197 } 7198 if ((un->un_pos.pmode == logical) && 7199 (un->un_pos.lgclblkno != 0)) { 7200 goto exit; 7201 } 7202 7203 7204 /* 7205 * If we're going to be writing, we set the density 7206 */ 7207 if (rw == 0 || rw == B_WRITE) { 7208 /* un_curdens is used as an index into densities table */ 7209 un->un_curdens = MT_DENSITY(un->un_dev); 7210 if (st_set_density(un)) { 7211 rval = -1; 7212 } 7213 goto exit; 7214 } 7215 7216 /* 7217 * If density is known already, 7218 * we don't have to get it again.(?) 7219 */ 7220 if (!un->un_density_known) { 7221 if (st_get_density(un)) { 7222 rval = -1; 7223 } 7224 } 7225 7226 exit: 7227 ASSERT(mutex_owned(ST_MUTEX)); 7228 return (rval); 7229 } 7230 7231 7232 /* 7233 * Try to determine density. We do this by attempting to read the 7234 * first record off the tape, cycling through the available density 7235 * codes as we go. 7236 */ 7237 7238 static int 7239 st_get_density(struct scsi_tape *un) 7240 { 7241 int succes = 0, rval = -1, i; 7242 uint_t size; 7243 uchar_t dens, olddens; 7244 7245 ST_FUNC(ST_DEVINFO, st_get_density); 7246 7247 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 7248 "st_get_density(un = 0x%p)\n", (void*)un); 7249 7250 ASSERT(mutex_owned(ST_MUTEX)); 7251 7252 /* 7253 * If Auto Density override is enabled The drive has 7254 * only one density and there is no point in attempting 7255 * find the correct one. 7256 * 7257 * Since most modern drives auto detect the density 7258 * and format of the recorded media before they come 7259 * ready. What this function does is a legacy behavior 7260 * and modern drives not only don't need it, The backup 7261 * utilities that do positioning via uscsi find the un- 7262 * expected rewinds problematic. 7263 * 7264 * The drives that need this are old reel to reel devices. 7265 * I took a swag and said they must be scsi-1 or older. 7266 * I don't beleave there will any of the newer devices 7267 * that need this. There will be some scsi-1 devices that 7268 * don't need this but I don't think they will be using the 7269 * BIG aftermarket backup and restore utilitys. 7270 */ 7271 if ((un->un_dp->options & ST_AUTODEN_OVERRIDE) || 7272 (un->un_sd->sd_inq->inq_ansi > 1)) { 7273 un->un_density_known = 1; 7274 rval = 0; 7275 goto exit; 7276 } 7277 7278 /* 7279 * This will only work on variable record length tapes 7280 * if and only if all variable record length tapes autodensity 7281 * select. 7282 */ 7283 size = (unsigned)(un->un_dp->bsize ? un->un_dp->bsize : SECSIZE); 7284 un->un_tmpbuf = kmem_alloc(size, KM_SLEEP); 7285 7286 /* 7287 * Start at the specified density 7288 */ 7289 7290 dens = olddens = un->un_curdens = MT_DENSITY(un->un_dev); 7291 7292 for (i = 0; i < NDENSITIES; i++, ((un->un_curdens == NDENSITIES - 1) ? 7293 (un->un_curdens = 0) : (un->un_curdens += 1))) { 7294 /* 7295 * If we've done this density before, 7296 * don't bother to do it again. 7297 */ 7298 dens = un->un_dp->densities[un->un_curdens]; 7299 if (i > 0 && dens == olddens) 7300 continue; 7301 olddens = dens; 7302 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7303 "trying density 0x%x\n", dens); 7304 if (st_set_density(un)) { 7305 continue; 7306 } 7307 7308 /* 7309 * XXX - the creates lots of headaches and slowdowns - must 7310 * fix. 7311 */ 7312 succes = (st_cmd(un, SCMD_READ, (int)size, SYNC_CMD) == 0); 7313 if (st_cmd(un, SCMD_REWIND, 0, SYNC_CMD)) { 7314 break; 7315 } 7316 if (succes) { 7317 st_init(un); 7318 rval = 0; 7319 un->un_density_known = 1; 7320 break; 7321 } 7322 } 7323 kmem_free(un->un_tmpbuf, size); 7324 un->un_tmpbuf = 0; 7325 7326 exit: 7327 ASSERT(mutex_owned(ST_MUTEX)); 7328 return (rval); 7329 } 7330 7331 static int 7332 st_set_density(struct scsi_tape *un) 7333 { 7334 int rval = 0; 7335 7336 ST_FUNC(ST_DEVINFO, st_set_density); 7337 7338 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 7339 "st_set_density(un = 0x%p): density = 0x%x\n", (void*)un, 7340 un->un_dp->densities[un->un_curdens]); 7341 7342 ASSERT(mutex_owned(ST_MUTEX)); 7343 7344 un->un_mspl->density = un->un_dp->densities[un->un_curdens]; 7345 7346 if ((un->un_dp->options & ST_AUTODEN_OVERRIDE) == 0) { 7347 /* 7348 * If auto density override is not set, Use mode select 7349 * to set density and compression. 7350 */ 7351 if (st_modeselect(un)) { 7352 rval = -1; 7353 } 7354 } else if ((un->un_dp->options & ST_MODE_SEL_COMP) != 0) { 7355 /* 7356 * If auto density and mode select compression are set, 7357 * This is a drive with one density code but compression 7358 * can be enabled or disabled. 7359 * Set compression but no need to set density. 7360 */ 7361 rval = st_set_compression(un); 7362 if ((rval != 0) && (rval != EALREADY)) { 7363 rval = -1; 7364 } else { 7365 rval = 0; 7366 } 7367 } 7368 7369 /* If sucessful set density and/or compression, mark density known */ 7370 if (rval == 0) { 7371 un->un_density_known = 1; 7372 } 7373 7374 ASSERT(mutex_owned(ST_MUTEX)); 7375 return (rval); 7376 } 7377 7378 static int 7379 st_loadtape(struct scsi_tape *un) 7380 { 7381 int rval; 7382 7383 ST_FUNC(ST_DEVINFO, st_loadtape); 7384 7385 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 7386 "st_loadtape(un = 0x%p)\n", (void*) un); 7387 7388 ASSERT(mutex_owned(ST_MUTEX)); 7389 7390 rval = st_update_block_pos(un, st_cmd, 0); 7391 if (rval == EACCES) { 7392 return (rval); 7393 } 7394 7395 /* 7396 * 'LOAD' the tape to BOT by rewinding 7397 */ 7398 rval = st_cmd(un, SCMD_REWIND, 1, SYNC_CMD); 7399 if (rval == 0) { 7400 st_init(un); 7401 un->un_density_known = 0; 7402 } 7403 7404 ASSERT(mutex_owned(ST_MUTEX)); 7405 return (rval); 7406 } 7407 7408 7409 /* 7410 * Note: QIC devices aren't so smart. If you try to append 7411 * after EOM, the write can fail because the device doesn't know 7412 * it's at EOM. In that case, issue a read. The read should fail 7413 * because there's no data, but the device knows it's at EOM, 7414 * so a subsequent write should succeed. To further confuse matters, 7415 * the target returns the same error if the tape is positioned 7416 * such that a write would overwrite existing data. That's why 7417 * we have to do the append test. A read in the middle of 7418 * recorded data would succeed, thus indicating we're attempting 7419 * something illegal. 7420 */ 7421 7422 7423 static void 7424 st_test_append(struct buf *bp) 7425 { 7426 dev_t dev = bp->b_edev; 7427 struct scsi_tape *un; 7428 uchar_t status; 7429 unsigned bcount; 7430 7431 un = ddi_get_soft_state(st_state, MTUNIT(dev)); 7432 7433 ST_FUNC(ST_DEVINFO, st_test_append); 7434 7435 ASSERT(mutex_owned(ST_MUTEX)); 7436 7437 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 7438 "st_test_append(): fileno %d\n", un->un_pos.fileno); 7439 7440 un->un_laststate = un->un_state; 7441 un->un_state = ST_STATE_APPEND_TESTING; 7442 un->un_test_append = 0; 7443 7444 /* 7445 * first, map in the buffer, because we're doing a double write -- 7446 * first into the kernel, then onto the tape. 7447 */ 7448 bp_mapin(bp); 7449 7450 /* 7451 * get a copy of the data.... 7452 */ 7453 un->un_tmpbuf = kmem_alloc((unsigned)bp->b_bcount, KM_SLEEP); 7454 bcopy(bp->b_un.b_addr, un->un_tmpbuf, (uint_t)bp->b_bcount); 7455 7456 /* 7457 * attempt the write.. 7458 */ 7459 7460 if (st_cmd(un, (int)SCMD_WRITE, (int)bp->b_bcount, SYNC_CMD) == 0) { 7461 success: 7462 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7463 "append write succeeded\n"); 7464 bp->b_resid = un->un_sbufp->b_resid; 7465 mutex_exit(ST_MUTEX); 7466 bcount = (unsigned)bp->b_bcount; 7467 biodone(bp); 7468 mutex_enter(ST_MUTEX); 7469 un->un_laststate = un->un_state; 7470 un->un_state = ST_STATE_OPEN; 7471 kmem_free(un->un_tmpbuf, bcount); 7472 un->un_tmpbuf = NULL; 7473 return; 7474 } 7475 7476 /* 7477 * The append failed. Do a short read. If that fails, we are at EOM 7478 * so we can retry the write command. If that succeeds, than we're 7479 * all screwed up (the controller reported a real error). 7480 * 7481 * XXX: should the dummy read be > SECSIZE? should it be the device's 7482 * XXX: block size? 7483 * 7484 */ 7485 status = un->un_status; 7486 un->un_status = 0; 7487 (void) st_cmd(un, SCMD_READ, SECSIZE, SYNC_CMD); 7488 if (un->un_status == KEY_BLANK_CHECK) { 7489 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7490 "append at EOM\n"); 7491 /* 7492 * Okay- the read failed. We should actually have confused 7493 * the controller enough to allow writing. In any case, the 7494 * i/o is on its own from here on out. 7495 */ 7496 un->un_laststate = un->un_state; 7497 un->un_state = ST_STATE_OPEN; 7498 bcopy(bp->b_un.b_addr, un->un_tmpbuf, (uint_t)bp->b_bcount); 7499 if (st_cmd(un, (int)SCMD_WRITE, (int)bp->b_bcount, 7500 SYNC_CMD) == 0) { 7501 goto success; 7502 } 7503 } 7504 7505 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7506 "append write failed- not at EOM\n"); 7507 bp->b_resid = bp->b_bcount; 7508 st_bioerror(bp, EIO); 7509 7510 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 7511 "st_test_append : EIO : append write failed - not at EOM"); 7512 7513 /* 7514 * backspace one record to get back to where we were 7515 */ 7516 if (st_cmd(un, SCMD_SPACE, Blk(-1), SYNC_CMD)) { 7517 un->un_pos.pmode = invalid; 7518 } 7519 7520 un->un_err_resid = bp->b_resid; 7521 un->un_status = status; 7522 7523 /* 7524 * Note: biodone will do a bp_mapout() 7525 */ 7526 mutex_exit(ST_MUTEX); 7527 bcount = (unsigned)bp->b_bcount; 7528 biodone(bp); 7529 mutex_enter(ST_MUTEX); 7530 un->un_laststate = un->un_state; 7531 un->un_state = ST_STATE_OPEN_PENDING_IO; 7532 kmem_free(un->un_tmpbuf, bcount); 7533 un->un_tmpbuf = NULL; 7534 } 7535 7536 /* 7537 * Special command handler 7538 */ 7539 7540 /* 7541 * common st_cmd code. The fourth parameter states 7542 * whether the caller wishes to await the results 7543 * Note the release of the mutex during most of the function 7544 */ 7545 static int 7546 st_cmd(struct scsi_tape *un, int com, int64_t count, int wait) 7547 { 7548 struct buf *bp; 7549 int err; 7550 uint_t last_err_resid; 7551 7552 ST_FUNC(ST_DEVINFO, st_cmd); 7553 7554 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 7555 "st_cmd(dev = 0x%lx, com = 0x%x, count = %"PRIx64", wait = %d)\n", 7556 un->un_dev, com, count, wait); 7557 7558 ASSERT(MUTEX_HELD(&un->un_sd->sd_mutex)); 7559 ASSERT(mutex_owned(ST_MUTEX)); 7560 7561 #ifdef STDEBUG 7562 if ((st_debug & 0x7)) { 7563 st_debug_cmds(un, com, count, wait); 7564 } 7565 #endif 7566 7567 st_wait_for_io(un); 7568 7569 /* check to see if this command requires the drive to be reserved */ 7570 err = st_check_cmd_for_need_to_reserve(un, com, count); 7571 7572 if (err) { 7573 return (err); 7574 } 7575 7576 /* 7577 * A space command is not recoverable if we don't know were we 7578 * were when it was issued. 7579 */ 7580 if ((com == SCMD_SPACE) || (com == SCMD_SPACE_G4)) { 7581 (void) st_update_block_pos(un, st_cmd, 0); 7582 } 7583 7584 /* 7585 * Forground should not be doing anything while recovery is active. 7586 */ 7587 ASSERT(un->un_recov_buf_busy == 0); 7588 7589 while (un->un_sbuf_busy) 7590 cv_wait(&un->un_sbuf_cv, ST_MUTEX); 7591 un->un_sbuf_busy = 1; 7592 7593 bp = un->un_sbufp; 7594 bzero(bp, sizeof (buf_t)); 7595 7596 bp->b_flags = (wait) ? B_BUSY : B_BUSY|B_ASYNC; 7597 7598 err = st_setup_cmd(un, bp, com, count); 7599 7600 un->un_sbuf_busy = 0; 7601 7602 /* 7603 * If was a space command need to update logical block position. 7604 * Only do this if the command was sucessful or it will mask the fact 7605 * that the space command failed by promoting the pmode to logical. 7606 */ 7607 if (((com == SCMD_SPACE) || (com == SCMD_SPACE_G4)) && 7608 (un->un_pos.pmode != invalid)) { 7609 un->un_running.pmode = invalid; 7610 last_err_resid = un->un_err_resid; 7611 (void) st_update_block_pos(un, st_cmd, 1); 7612 /* 7613 * Set running position to invalid so it updates on the 7614 * next command. 7615 */ 7616 un->un_running.pmode = invalid; 7617 un->un_err_resid = last_err_resid; 7618 } 7619 7620 cv_signal(&un->un_sbuf_cv); 7621 7622 return (err); 7623 } 7624 7625 static int 7626 st_setup_cmd(struct scsi_tape *un, buf_t *bp, int com, int64_t count) 7627 { 7628 int err; 7629 dev_t dev = un->un_dev; 7630 7631 ST_FUNC(ST_DEVINFO, st_setup_cmd); 7632 /* 7633 * Set count to the actual size of the data tranfer. 7634 * For commands with no data transfer, set bp->b_bcount 7635 * to the value to be used when constructing the 7636 * cdb in st_make_cmd(). 7637 */ 7638 switch (com) { 7639 case SCMD_READ: 7640 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7641 "special read %"PRId64"\n", count); 7642 bp->b_flags |= B_READ; 7643 bp->b_un.b_addr = un->un_tmpbuf; 7644 break; 7645 7646 case SCMD_WRITE: 7647 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7648 "special write %"PRId64"\n", count); 7649 bp->b_un.b_addr = un->un_tmpbuf; 7650 break; 7651 7652 case SCMD_WRITE_FILE_MARK: 7653 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7654 "write %"PRId64" file marks\n", count); 7655 bp->b_bcount = count; 7656 count = 0; 7657 break; 7658 7659 case SCMD_REWIND: 7660 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, "rewind\n"); 7661 bp->b_bcount = count; 7662 count = 0; 7663 break; 7664 7665 case SCMD_SPACE: 7666 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, "space\n"); 7667 /* 7668 * If the user could have entered a number that will 7669 * not fit in the 12 bit count field of space(8), 7670 * use space(16). 7671 */ 7672 if (((int64_t)SPACE_CNT(count) > 0x7fffff) || 7673 ((int64_t)SPACE_CNT(count) < -(0x7fffff))) { 7674 com = SCMD_SPACE_G4; 7675 } 7676 bp->b_bcount = count; 7677 count = 0; 7678 break; 7679 7680 case SCMD_RESERVE: 7681 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, "reserve"); 7682 bp->b_bcount = 0; 7683 count = 0; 7684 break; 7685 7686 case SCMD_RELEASE: 7687 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, "release"); 7688 bp->b_bcount = 0; 7689 count = 0; 7690 break; 7691 7692 case SCMD_LOAD: 7693 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7694 "%s tape\n", (count & LD_LOAD) ? "load" : "unload"); 7695 bp->b_bcount = count; 7696 count = 0; 7697 break; 7698 7699 case SCMD_ERASE: 7700 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7701 "erase tape\n"); 7702 bp->b_bcount = count; 7703 count = 0; 7704 break; 7705 7706 case SCMD_MODE_SENSE: 7707 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7708 "mode sense\n"); 7709 bp->b_flags |= B_READ; 7710 bp->b_un.b_addr = (caddr_t)(un->un_mspl); 7711 break; 7712 7713 case SCMD_MODE_SELECT: 7714 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7715 "mode select\n"); 7716 bp->b_un.b_addr = (caddr_t)(un->un_mspl); 7717 break; 7718 7719 case SCMD_READ_BLKLIM: 7720 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7721 "read block limits\n"); 7722 bp->b_bcount = count; 7723 bp->b_flags |= B_READ; 7724 bp->b_un.b_addr = (caddr_t)(un->un_rbl); 7725 break; 7726 7727 case SCMD_TEST_UNIT_READY: 7728 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7729 "test unit ready\n"); 7730 bp->b_bcount = 0; 7731 count = 0; 7732 break; 7733 7734 case SCMD_DOORLOCK: 7735 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7736 "%s tape\n", (count & MR_LOCK) ? "lock" : "unlock"); 7737 bp->b_bcount = count = 0; 7738 break; 7739 7740 case SCMD_READ_POSITION: 7741 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7742 "read position\n"); 7743 switch (un->un_read_pos_type) { 7744 case LONG_POS: 7745 count = sizeof (tape_position_long_t); 7746 break; 7747 case EXT_POS: 7748 count = min(count, sizeof (tape_position_ext_t)); 7749 break; 7750 case SHORT_POS: 7751 count = sizeof (tape_position_t); 7752 break; 7753 default: 7754 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 7755 "Unknown read position type 0x%x in " 7756 "st_make_cmd()\n", un->un_read_pos_type); 7757 } 7758 bp->b_bcount = count; 7759 bp->b_flags |= B_READ; 7760 bp->b_un.b_addr = (caddr_t)un->un_read_pos_data; 7761 break; 7762 7763 default: 7764 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 7765 "Unhandled scsi command 0x%x in st_setup_cmd()\n", com); 7766 } 7767 7768 mutex_exit(ST_MUTEX); 7769 7770 if (count > 0) { 7771 int flg = (bp->b_flags & B_READ) ? B_READ : B_WRITE; 7772 /* 7773 * We're going to do actual I/O. 7774 * Set things up for physio. 7775 */ 7776 struct iovec aiov; 7777 struct uio auio; 7778 struct uio *uio = &auio; 7779 7780 bzero(&auio, sizeof (struct uio)); 7781 bzero(&aiov, sizeof (struct iovec)); 7782 aiov.iov_base = bp->b_un.b_addr; 7783 aiov.iov_len = count; 7784 7785 uio->uio_iov = &aiov; 7786 uio->uio_iovcnt = 1; 7787 uio->uio_resid = aiov.iov_len; 7788 uio->uio_segflg = UIO_SYSSPACE; 7789 7790 /* 7791 * Let physio do the rest... 7792 */ 7793 bp->b_forw = (struct buf *)(uintptr_t)com; 7794 bp->b_back = NULL; 7795 err = physio(st_strategy, bp, dev, flg, st_minphys, uio); 7796 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7797 "st_setup_cmd: physio returns %d\n", err); 7798 } else { 7799 /* 7800 * Mimic physio 7801 */ 7802 bp->b_forw = (struct buf *)(uintptr_t)com; 7803 bp->b_back = NULL; 7804 bp->b_edev = dev; 7805 bp->b_dev = cmpdev(dev); 7806 bp->b_blkno = 0; 7807 bp->b_resid = 0; 7808 (void) st_strategy(bp); 7809 if (bp->b_flags & B_ASYNC) { 7810 /* 7811 * This is an async command- the caller won't wait 7812 * and doesn't care about errors. 7813 */ 7814 mutex_enter(ST_MUTEX); 7815 return (0); 7816 } 7817 7818 /* 7819 * BugTraq #4260046 7820 * ---------------- 7821 * Restore Solaris 2.5.1 behavior, namely call biowait 7822 * unconditionally. The old comment said... 7823 * 7824 * "if strategy was flagged with persistent errors, we would 7825 * have an error here, and the bp would never be sent, so we 7826 * don't want to wait on a bp that was never sent...or hang" 7827 * 7828 * The new rationale, courtesy of Chitrank... 7829 * 7830 * "we should unconditionally biowait() here because 7831 * st_strategy() will do a biodone() in the persistent error 7832 * case and the following biowait() will return immediately. 7833 * If not, in the case of "errors after pkt alloc" in 7834 * st_start(), we will not biowait here which will cause the 7835 * next biowait() to return immediately which will cause 7836 * us to send out the next command. In the case where both of 7837 * these use the sbuf, when the first command completes we'll 7838 * free the packet attached to sbuf and the same pkt will 7839 * get freed again when we complete the second command. 7840 * see esc 518987. BTW, it is necessary to do biodone() in 7841 * st_start() for the pkt alloc failure case because physio() 7842 * does biowait() and will hang if we don't do biodone()" 7843 */ 7844 7845 err = biowait(bp); 7846 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 7847 "st_setup_cmd: biowait returns %d\n", err); 7848 } 7849 7850 mutex_enter(ST_MUTEX); 7851 7852 return (err); 7853 } 7854 7855 static int 7856 st_set_compression(struct scsi_tape *un) 7857 { 7858 int rval; 7859 int turn_compression_on; 7860 minor_t minor; 7861 7862 ST_FUNC(ST_DEVINFO, st_set_compression); 7863 7864 /* 7865 * Drive either dosn't have compression or it is controlled with 7866 * special density codes. Return ENOTTY so caller 7867 * knows nothing was done. 7868 */ 7869 if ((un->un_dp->options & ST_MODE_SEL_COMP) == 0) { 7870 un->un_comp_page = 0; 7871 return (ENOTTY); 7872 } 7873 7874 /* set compression based on minor node opened */ 7875 minor = MT_DENSITY(un->un_dev); 7876 7877 /* 7878 * If this the compression density or 7879 * the drive has two densities and uses mode select for 7880 * control of compression turn on compression for MT_DENSITY2 7881 * as well. 7882 */ 7883 if ((minor == ST_COMPRESSION_DENSITY) || 7884 (minor == MT_DENSITY(MT_DENSITY2)) && 7885 (un->un_dp->densities[0] == un->un_dp->densities[1]) && 7886 (un->un_dp->densities[2] == un->un_dp->densities[3]) && 7887 (un->un_dp->densities[0] != un->un_dp->densities[2])) { 7888 7889 turn_compression_on = 1; 7890 } else { 7891 turn_compression_on = 0; 7892 } 7893 7894 un->un_mspl->high_bl = (uchar_t)(un->un_bsize >> 16); 7895 un->un_mspl->mid_bl = (uchar_t)(un->un_bsize >> 8); 7896 un->un_mspl->low_bl = (uchar_t)(un->un_bsize); 7897 7898 /* 7899 * Need to determine which page does the device use for compression. 7900 * First try the data compression page. If this fails try the device 7901 * configuration page 7902 */ 7903 7904 if ((un->un_comp_page & ST_DEV_DATACOMP_PAGE) == ST_DEV_DATACOMP_PAGE) { 7905 rval = st_set_datacomp_page(un, turn_compression_on); 7906 if (rval == EALREADY) { 7907 return (rval); 7908 } 7909 if (rval != 0) { 7910 if (un->un_status == KEY_ILLEGAL_REQUEST) { 7911 /* 7912 * This device does not support data 7913 * compression page 7914 */ 7915 un->un_comp_page = ST_DEV_CONFIG_PAGE; 7916 } else if (un->un_state >= ST_STATE_OPEN) { 7917 un->un_pos.pmode = invalid; 7918 rval = EIO; 7919 } else { 7920 rval = -1; 7921 } 7922 } else { 7923 un->un_comp_page = ST_DEV_DATACOMP_PAGE; 7924 } 7925 } 7926 7927 if ((un->un_comp_page & ST_DEV_CONFIG_PAGE) == ST_DEV_CONFIG_PAGE) { 7928 rval = st_set_devconfig_page(un, turn_compression_on); 7929 if (rval == EALREADY) { 7930 return (rval); 7931 } 7932 if (rval != 0) { 7933 if (un->un_status == KEY_ILLEGAL_REQUEST) { 7934 /* 7935 * This device does not support 7936 * compression at all advice the 7937 * user and unset ST_MODE_SEL_COMP 7938 */ 7939 un->un_dp->options &= ~ST_MODE_SEL_COMP; 7940 un->un_comp_page = 0; 7941 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 7942 "Device Does Not Support Compression\n"); 7943 } else if (un->un_state >= ST_STATE_OPEN) { 7944 un->un_pos.pmode = invalid; 7945 rval = EIO; 7946 } else { 7947 rval = -1; 7948 } 7949 } 7950 } 7951 7952 return (rval); 7953 } 7954 7955 /* 7956 * set or unset compression thru device configuration page. 7957 */ 7958 static int 7959 st_set_devconfig_page(struct scsi_tape *un, int compression_on) 7960 { 7961 unsigned char cflag; 7962 int rval = 0; 7963 7964 7965 ST_FUNC(ST_DEVINFO, st_set_devconfig_page); 7966 7967 ASSERT(mutex_owned(ST_MUTEX)); 7968 /* 7969 * Figure what to set compression flag to. 7970 */ 7971 if (compression_on) { 7972 /* They have selected a compression node */ 7973 if (un->un_dp->type == ST_TYPE_FUJI) { 7974 cflag = 0x84; /* use EDRC */ 7975 } else { 7976 cflag = ST_DEV_CONFIG_DEF_COMP; 7977 } 7978 } else { 7979 cflag = ST_DEV_CONFIG_NO_COMP; 7980 } 7981 7982 /* 7983 * If compression is already set the way it was requested. 7984 * And if this not the first time we has tried. 7985 */ 7986 if ((cflag == un->un_mspl->page.dev.comp_alg) && 7987 (un->un_comp_page == ST_DEV_DATACOMP_PAGE)) { 7988 return (EALREADY); 7989 } 7990 7991 un->un_mspl->page.dev.comp_alg = cflag; 7992 /* 7993 * need to send mode select even if correct compression is 7994 * already set since need to set density code 7995 */ 7996 7997 #ifdef STDEBUG 7998 if ((st_debug & 0x7) >= 6) { 7999 st_clean_print(ST_DEVINFO, st_label, SCSI_DEBUG, 8000 "st_set_devconfig_page: sense data for mode select", 8001 (char *)un->un_mspl, sizeof (struct seq_mode)); 8002 } 8003 #endif 8004 rval = st_gen_mode_select(un, st_uscsi_cmd, un->un_mspl, 8005 sizeof (struct seq_mode)); 8006 8007 return (rval); 8008 } 8009 8010 /* 8011 * set/reset compression bit thru data compression page 8012 */ 8013 static int 8014 st_set_datacomp_page(struct scsi_tape *un, int compression_on) 8015 { 8016 int compression_on_already; 8017 int rval = 0; 8018 8019 8020 ST_FUNC(ST_DEVINFO, st_set_datacomp_page); 8021 8022 ASSERT(mutex_owned(ST_MUTEX)); 8023 /* 8024 * If drive is not capable of compression (at this time) 8025 * return EALREADY so caller doesn't think that this page 8026 * is not supported. This check is for drives that can 8027 * disable compression from the front panel or configuration. 8028 * I doubt that a drive that supports this page is not really 8029 * capable of compression. 8030 */ 8031 if (un->un_mspl->page.comp.dcc == 0) { 8032 return (EALREADY); 8033 } 8034 8035 /* See if compression currently turned on */ 8036 if (un->un_mspl->page.comp.dce) { 8037 compression_on_already = 1; 8038 } else { 8039 compression_on_already = 0; 8040 } 8041 8042 /* 8043 * If compression is already set the way it was requested. 8044 * And if this not the first time we has tried. 8045 */ 8046 if ((compression_on == compression_on_already) && 8047 (un->un_comp_page == ST_DEV_DATACOMP_PAGE)) { 8048 return (EALREADY); 8049 } 8050 8051 /* 8052 * if we are already set to the appropriate compression 8053 * mode, don't set it again 8054 */ 8055 if (compression_on) { 8056 /* compression selected */ 8057 un->un_mspl->page.comp.dce = 1; 8058 } else { 8059 un->un_mspl->page.comp.dce = 0; 8060 } 8061 8062 8063 #ifdef STDEBUG 8064 if ((st_debug & 0x7) >= 6) { 8065 st_clean_print(ST_DEVINFO, st_label, SCSI_DEBUG, 8066 "st_set_datacomp_page: sense data for mode select", 8067 (char *)un->un_mspl, sizeof (struct seq_mode)); 8068 } 8069 #endif 8070 rval = st_gen_mode_select(un, st_uscsi_cmd, un->un_mspl, 8071 sizeof (struct seq_mode)); 8072 8073 return (rval); 8074 } 8075 8076 static int 8077 st_modesense(struct scsi_tape *un) 8078 { 8079 int rval; 8080 uchar_t page; 8081 8082 ST_FUNC(ST_DEVINFO, st_modesense); 8083 8084 page = un->un_comp_page; 8085 8086 switch (page) { 8087 case ST_DEV_DATACOMP_PAGE: 8088 case ST_DEV_CONFIG_PAGE: /* FALLTHROUGH */ 8089 rval = st_gen_mode_sense(un, st_uscsi_cmd, page, un->un_mspl, 8090 sizeof (struct seq_mode)); 8091 break; 8092 8093 case ST_DEV_DATACOMP_PAGE | ST_DEV_CONFIG_PAGE: 8094 if (un->un_dp->options & ST_MODE_SEL_COMP) { 8095 page = ST_DEV_CONFIG_PAGE; 8096 rval = st_gen_mode_sense(un, st_uscsi_cmd, page, 8097 un->un_mspl, sizeof (struct seq_mode)); 8098 if (rval == 0 && un->un_mspl->page_code == page) { 8099 un->un_comp_page = page; 8100 break; 8101 } 8102 page = ST_DEV_DATACOMP_PAGE; 8103 rval = st_gen_mode_sense(un, st_uscsi_cmd, page, 8104 un->un_mspl, sizeof (struct seq_mode)); 8105 if (rval == 0 && un->un_mspl->page_code == page) { 8106 un->un_comp_page = page; 8107 break; 8108 } 8109 un->un_dp->options &= ~ST_MODE_SEL_COMP; 8110 un->un_comp_page = 0; 8111 } else { 8112 un->un_comp_page = 0; 8113 } 8114 8115 default: /* FALLTHROUGH */ 8116 rval = st_cmd(un, SCMD_MODE_SENSE, MSIZE, SYNC_CMD); 8117 } 8118 return (rval); 8119 } 8120 8121 static int 8122 st_modeselect(struct scsi_tape *un) 8123 { 8124 int rval = 0; 8125 int ix; 8126 8127 ST_FUNC(ST_DEVINFO, st_modeselect); 8128 8129 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 8130 "st_modeselect(dev = 0x%lx): density = 0x%x\n", 8131 un->un_dev, un->un_mspl->density); 8132 8133 ASSERT(mutex_owned(ST_MUTEX)); 8134 8135 /* 8136 * The parameter list should be the same for all of the 8137 * cases that follow so set them here 8138 * 8139 * Try mode select first if if fails set fields manually 8140 */ 8141 rval = st_modesense(un); 8142 if (rval != 0) { 8143 ST_DEBUG3(ST_DEVINFO, st_label, CE_WARN, 8144 "st_modeselect: First mode sense failed\n"); 8145 un->un_mspl->bd_len = 8; 8146 un->un_mspl->high_nb = 0; 8147 un->un_mspl->mid_nb = 0; 8148 un->un_mspl->low_nb = 0; 8149 } 8150 un->un_mspl->high_bl = (uchar_t)(un->un_bsize >> 16); 8151 un->un_mspl->mid_bl = (uchar_t)(un->un_bsize >> 8); 8152 un->un_mspl->low_bl = (uchar_t)(un->un_bsize); 8153 8154 8155 /* 8156 * If configured to use a specific density code for a media type. 8157 * curdens is previously set by the minor node opened. 8158 * If the media type doesn't match the minor node we change it so it 8159 * looks like the correct one was opened. 8160 */ 8161 if (un->un_dp->options & ST_KNOWS_MEDIA) { 8162 uchar_t best; 8163 8164 for (best = 0xff, ix = 0; ix < NDENSITIES; ix++) { 8165 if (un->un_mspl->media_type == 8166 un->un_dp->mediatype[ix]) { 8167 best = ix; 8168 /* 8169 * It matches but it might not be the only one. 8170 * Use the highest matching media type but not 8171 * to exceed the density selected by the open. 8172 */ 8173 if (ix < un->un_curdens) { 8174 continue; 8175 } 8176 un->un_curdens = ix; 8177 break; 8178 } 8179 } 8180 /* If a match was found best will not be 0xff any more */ 8181 if (best < NDENSITIES) { 8182 ST_DEBUG3(ST_DEVINFO, st_label, CE_WARN, 8183 "found media 0x%X using density 0x%X\n", 8184 un->un_mspl->media_type, 8185 un->un_dp->densities[best]); 8186 un->un_mspl->density = un->un_dp->densities[best]; 8187 } else { 8188 /* Otherwise set density based on minor node opened */ 8189 un->un_mspl->density = 8190 un->un_dp->densities[un->un_curdens]; 8191 } 8192 } else { 8193 un->un_mspl->density = un->un_dp->densities[un->un_curdens]; 8194 } 8195 8196 if (un->un_dp->options & ST_NOBUF) { 8197 un->un_mspl->bufm = 0; 8198 } else { 8199 un->un_mspl->bufm = 1; 8200 } 8201 8202 rval = st_set_compression(un); 8203 8204 /* 8205 * If st_set_compression returned invalid or already it 8206 * found no need to do the mode select. 8207 * So do it here. 8208 */ 8209 if ((rval == ENOTTY) || (rval == EALREADY)) { 8210 8211 /* Zero non-writeable fields */ 8212 un->un_mspl->data_len = 0; 8213 un->un_mspl->media_type = 0; 8214 un->un_mspl->wp = 0; 8215 8216 /* need to set the density code */ 8217 rval = st_cmd(un, SCMD_MODE_SELECT, MSIZE, SYNC_CMD); 8218 if (rval != 0) { 8219 if (un->un_state >= ST_STATE_OPEN) { 8220 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 8221 "unable to set tape mode\n"); 8222 un->un_pos.pmode = invalid; 8223 rval = EIO; 8224 } else { 8225 rval = -1; 8226 } 8227 } 8228 } 8229 8230 /* 8231 * The spec recommends to send a mode sense after a mode select 8232 */ 8233 (void) st_modesense(un); 8234 8235 ASSERT(mutex_owned(ST_MUTEX)); 8236 8237 return (rval); 8238 } 8239 8240 /* 8241 * st_gen_mode_sense 8242 * 8243 * generic mode sense.. it allows for any page 8244 */ 8245 static int 8246 st_gen_mode_sense(struct scsi_tape *un, ubufunc_t ubf, int page, 8247 struct seq_mode *page_data, int page_size) 8248 { 8249 8250 int r; 8251 char cdb[CDB_GROUP0]; 8252 struct uscsi_cmd *com; 8253 struct scsi_arq_status status; 8254 8255 ST_FUNC(ST_DEVINFO, st_gen_mode_sense); 8256 8257 com = kmem_zalloc(sizeof (*com), KM_SLEEP); 8258 8259 bzero(cdb, CDB_GROUP0); 8260 cdb[0] = SCMD_MODE_SENSE; 8261 cdb[2] = (char)page; 8262 cdb[4] = (char)page_size; 8263 8264 com->uscsi_cdb = cdb; 8265 com->uscsi_cdblen = CDB_GROUP0; 8266 com->uscsi_bufaddr = (caddr_t)page_data; 8267 com->uscsi_buflen = page_size; 8268 com->uscsi_rqlen = sizeof (status); 8269 com->uscsi_rqbuf = (caddr_t)&status; 8270 com->uscsi_timeout = un->un_dp->non_motion_timeout; 8271 com->uscsi_flags = USCSI_DIAGNOSE | USCSI_RQENABLE | USCSI_READ; 8272 8273 r = ubf(un, com, FKIOCTL); 8274 kmem_free(com, sizeof (*com)); 8275 return (r); 8276 } 8277 8278 /* 8279 * st_gen_mode_select 8280 * 8281 * generic mode select.. it allows for any page 8282 */ 8283 static int 8284 st_gen_mode_select(struct scsi_tape *un, ubufunc_t ubf, 8285 struct seq_mode *page_data, int page_size) 8286 { 8287 8288 int r; 8289 char cdb[CDB_GROUP0]; 8290 struct uscsi_cmd *com; 8291 struct scsi_arq_status status; 8292 8293 ST_FUNC(ST_DEVINFO, st_gen_mode_select); 8294 8295 /* Zero non-writeable fields */ 8296 page_data->data_len = 0; 8297 page_data->media_type = 0; 8298 page_data->wp = 0; 8299 8300 /* 8301 * If mode select has any page data, zero the ps (Page Savable) bit. 8302 */ 8303 if (page_size > MSIZE) { 8304 page_data->ps = 0; 8305 } 8306 8307 8308 com = kmem_zalloc(sizeof (*com), KM_SLEEP); 8309 8310 /* 8311 * then, do a mode select to set what ever info 8312 */ 8313 bzero(cdb, CDB_GROUP0); 8314 cdb[0] = SCMD_MODE_SELECT; 8315 cdb[1] = 0x10; /* set PF bit for many third party drives */ 8316 cdb[4] = (char)page_size; 8317 8318 com->uscsi_cdb = cdb; 8319 com->uscsi_cdblen = CDB_GROUP0; 8320 com->uscsi_bufaddr = (caddr_t)page_data; 8321 com->uscsi_buflen = page_size; 8322 com->uscsi_rqlen = sizeof (status); 8323 com->uscsi_rqbuf = (caddr_t)&status; 8324 com->uscsi_timeout = un->un_dp->non_motion_timeout; 8325 com->uscsi_flags = USCSI_DIAGNOSE | USCSI_RQENABLE | USCSI_WRITE; 8326 8327 r = ubf(un, com, FKIOCTL); 8328 8329 kmem_free(com, sizeof (*com)); 8330 return (r); 8331 } 8332 8333 static int 8334 st_read_block_limits(struct scsi_tape *un, struct read_blklim *read_blk) 8335 { 8336 int rval; 8337 char cdb[CDB_GROUP0]; 8338 struct uscsi_cmd *com; 8339 struct scsi_arq_status status; 8340 8341 ST_FUNC(ST_DEVINFO, st_read_block_limits); 8342 8343 com = kmem_zalloc(sizeof (*com), KM_SLEEP); 8344 8345 bzero(cdb, CDB_GROUP0); 8346 cdb[0] = SCMD_READ_BLKLIM; 8347 8348 com->uscsi_cdb = cdb; 8349 com->uscsi_cdblen = CDB_GROUP0; 8350 com->uscsi_bufaddr = (caddr_t)read_blk; 8351 com->uscsi_buflen = sizeof (struct read_blklim); 8352 com->uscsi_rqlen = sizeof (status); 8353 com->uscsi_rqbuf = (caddr_t)&status; 8354 com->uscsi_timeout = un->un_dp->non_motion_timeout; 8355 com->uscsi_flags = USCSI_DIAGNOSE | USCSI_RQENABLE | USCSI_READ; 8356 8357 rval = st_uscsi_cmd(un, com, FKIOCTL); 8358 if (com->uscsi_status || com->uscsi_resid) { 8359 rval = -1; 8360 } 8361 8362 kmem_free(com, sizeof (*com)); 8363 return (rval); 8364 } 8365 8366 static int 8367 st_report_density_support(struct scsi_tape *un, uchar_t *density_data, 8368 size_t buflen) 8369 { 8370 int rval; 8371 char cdb[CDB_GROUP1]; 8372 struct uscsi_cmd *com; 8373 struct scsi_arq_status status; 8374 8375 ST_FUNC(ST_DEVINFO, st_report_density_support); 8376 8377 com = kmem_zalloc(sizeof (*com), KM_SLEEP); 8378 8379 bzero(cdb, CDB_GROUP1); 8380 cdb[0] = SCMD_REPORT_DENSITIES; 8381 cdb[7] = (buflen & 0xff00) >> 8; 8382 cdb[8] = buflen & 0xff; 8383 8384 com->uscsi_cdb = cdb; 8385 com->uscsi_cdblen = CDB_GROUP1; 8386 com->uscsi_bufaddr = (caddr_t)density_data; 8387 com->uscsi_buflen = buflen; 8388 com->uscsi_rqlen = sizeof (status); 8389 com->uscsi_rqbuf = (caddr_t)&status; 8390 com->uscsi_timeout = un->un_dp->non_motion_timeout; 8391 com->uscsi_flags = USCSI_DIAGNOSE | USCSI_RQENABLE | USCSI_READ; 8392 8393 rval = st_uscsi_cmd(un, com, FKIOCTL); 8394 if (com->uscsi_status || com->uscsi_resid) { 8395 rval = -1; 8396 } 8397 8398 kmem_free(com, sizeof (*com)); 8399 return (rval); 8400 } 8401 8402 static int 8403 st_report_supported_operation(struct scsi_tape *un, uchar_t *oper_data, 8404 uchar_t option_code, ushort_t service_action) 8405 { 8406 int rval; 8407 char cdb[CDB_GROUP5]; 8408 struct uscsi_cmd *com; 8409 struct scsi_arq_status status; 8410 uint32_t allo_length; 8411 8412 ST_FUNC(ST_DEVINFO, st_report_supported_operation); 8413 8414 allo_length = sizeof (struct one_com_des) + 8415 sizeof (struct com_timeout_des); 8416 com = kmem_zalloc(sizeof (*com), KM_SLEEP); 8417 8418 bzero(cdb, CDB_GROUP5); 8419 cdb[0] = (char)SCMD_MAINTENANCE_IN; 8420 cdb[1] = SSVC_ACTION_GET_SUPPORTED_OPERATIONS; 8421 if (service_action) { 8422 cdb[2] = (char)(ONE_COMMAND_DATA_FORMAT | 0x80); /* RCTD */ 8423 cdb[4] = (service_action & 0xff00) >> 8; 8424 cdb[5] = service_action & 0xff; 8425 } else { 8426 cdb[2] = (char)(ONE_COMMAND_NO_SERVICE_DATA_FORMAT | 8427 0x80); /* RCTD */ 8428 } 8429 cdb[3] = option_code; 8430 cdb[6] = (allo_length & 0xff000000) >> 24; 8431 cdb[7] = (allo_length & 0xff0000) >> 16; 8432 cdb[8] = (allo_length & 0xff00) >> 8; 8433 cdb[9] = allo_length & 0xff; 8434 8435 com->uscsi_cdb = cdb; 8436 com->uscsi_cdblen = CDB_GROUP5; 8437 com->uscsi_bufaddr = (caddr_t)oper_data; 8438 com->uscsi_buflen = allo_length; 8439 com->uscsi_rqlen = sizeof (status); 8440 com->uscsi_rqbuf = (caddr_t)&status; 8441 com->uscsi_timeout = un->un_dp->non_motion_timeout; 8442 com->uscsi_flags = USCSI_DIAGNOSE | USCSI_RQENABLE | USCSI_READ; 8443 8444 rval = st_uscsi_cmd(un, com, FKIOCTL); 8445 if (com->uscsi_status) { 8446 rval = -1; 8447 } 8448 8449 kmem_free(com, sizeof (*com)); 8450 return (rval); 8451 } 8452 8453 /* 8454 * Changes devices blocksize and bsize to requested blocksize nblksz. 8455 * Returns returned value from first failed call or zero on success. 8456 */ 8457 static int 8458 st_change_block_size(struct scsi_tape *un, uint32_t nblksz) 8459 { 8460 struct seq_mode *current; 8461 int rval; 8462 uint32_t oldblksz; 8463 8464 ST_FUNC(ST_DEVINFO, st_change_block_size); 8465 8466 current = kmem_zalloc(MSIZE, KM_SLEEP); 8467 8468 /* 8469 * If we haven't got the compression page yet, do that first. 8470 */ 8471 if (un->un_comp_page == (ST_DEV_DATACOMP_PAGE | ST_DEV_CONFIG_PAGE)) { 8472 (void) st_modesense(un); 8473 } 8474 8475 /* Read current settings */ 8476 rval = st_gen_mode_sense(un, st_uscsi_cmd, 0, current, MSIZE); 8477 if (rval != 0) { 8478 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 8479 "mode sense for change block size failed: rval = %d", rval); 8480 goto finish; 8481 } 8482 8483 /* Figure the current block size */ 8484 oldblksz = 8485 (current->high_bl << 16) | 8486 (current->mid_bl << 8) | 8487 (current->low_bl); 8488 8489 /* If current block size is the same as requested were done */ 8490 if (oldblksz == nblksz) { 8491 un->un_bsize = nblksz; 8492 rval = 0; 8493 goto finish; 8494 } 8495 8496 /* Change to requested block size */ 8497 current->high_bl = (uchar_t)(nblksz >> 16); 8498 current->mid_bl = (uchar_t)(nblksz >> 8); 8499 current->low_bl = (uchar_t)(nblksz); 8500 8501 /* Attempt to change block size */ 8502 rval = st_gen_mode_select(un, st_uscsi_cmd, current, MSIZE); 8503 if (rval != 0) { 8504 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 8505 "Set new block size failed: rval = %d", rval); 8506 goto finish; 8507 } 8508 8509 /* Read back and verify setting */ 8510 rval = st_modesense(un); 8511 if (rval == 0) { 8512 un->un_bsize = 8513 (un->un_mspl->high_bl << 16) | 8514 (un->un_mspl->mid_bl << 8) | 8515 (un->un_mspl->low_bl); 8516 8517 if (un->un_bsize != nblksz) { 8518 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 8519 "Blocksize set does not equal requested blocksize" 8520 "(read: %u requested: %u)\n", nblksz, un->un_bsize); 8521 rval = EIO; 8522 } 8523 } 8524 finish: 8525 kmem_free(current, MSIZE); 8526 return (rval); 8527 } 8528 8529 8530 static void 8531 st_init(struct scsi_tape *un) 8532 { 8533 ST_FUNC(ST_DEVINFO, st_init); 8534 8535 ASSERT(mutex_owned(ST_MUTEX)); 8536 8537 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 8538 "st_init(): dev = 0x%lx, will reset fileno, blkno, eof\n", 8539 un->un_dev); 8540 8541 un->un_pos.blkno = 0; 8542 un->un_pos.fileno = 0; 8543 un->un_lastop = ST_OP_NIL; 8544 un->un_pos.eof = ST_NO_EOF; 8545 un->un_pwr_mgmt = ST_PWR_NORMAL; 8546 if (st_error_level != SCSI_ERR_ALL) { 8547 if (DEBUGGING) { 8548 st_error_level = SCSI_ERR_ALL; 8549 } else { 8550 st_error_level = SCSI_ERR_RETRYABLE; 8551 } 8552 } 8553 } 8554 8555 8556 static void 8557 st_make_cmd(struct scsi_tape *un, struct buf *bp, int (*func)(caddr_t)) 8558 { 8559 struct scsi_pkt *pkt; 8560 struct uscsi_cmd *ucmd; 8561 recov_info *ri; 8562 int tval = 0; 8563 int64_t count; 8564 uint32_t additional = 0; 8565 uint32_t address = 0; 8566 union scsi_cdb *ucdb; 8567 int flags = 0; 8568 int cdb_len = CDB_GROUP0; /* default */ 8569 uchar_t com; 8570 char fixbit; 8571 char short_fm = 0; 8572 optype prev_op = un->un_lastop; 8573 int stat_size = 8574 (un->un_arq_enabled ? sizeof (struct scsi_arq_status) : 1); 8575 8576 ST_FUNC(ST_DEVINFO, st_make_cmd); 8577 8578 ASSERT(mutex_owned(ST_MUTEX)); 8579 8580 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 8581 "st_make_cmd(): dev = 0x%lx\n", un->un_dev); 8582 8583 8584 /* 8585 * fixbit is for setting the Fixed Mode and Suppress Incorrect 8586 * Length Indicator bits on read/write commands, for setting 8587 * the Long bit on erase commands, and for setting the Code 8588 * Field bits on space commands. 8589 */ 8590 8591 /* regular raw I/O */ 8592 if ((bp != un->un_sbufp) && (bp != un->un_recov_buf)) { 8593 pkt = scsi_init_pkt(ROUTE, NULL, bp, 8594 CDB_GROUP0, stat_size, st_recov_sz, 0, func, 8595 (caddr_t)un); 8596 if (pkt == NULL) { 8597 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 8598 "Read Write scsi_init_pkt() failure\n"); 8599 goto exit; 8600 } 8601 ASSERT(pkt->pkt_resid == 0); 8602 #ifdef STDEBUG 8603 bzero(pkt->pkt_private, st_recov_sz); 8604 bzero(pkt->pkt_scbp, stat_size); 8605 #endif 8606 ri = (recov_info *)pkt->pkt_private; 8607 ri->privatelen = st_recov_sz; 8608 if (un->un_bsize == 0) { 8609 count = bp->b_bcount; 8610 fixbit = 0; 8611 } else { 8612 count = bp->b_bcount / un->un_bsize; 8613 fixbit = 1; 8614 } 8615 if (bp->b_flags & B_READ) { 8616 com = SCMD_READ; 8617 un->un_lastop = ST_OP_READ; 8618 if ((un->un_bsize == 0) && /* Not Fixed Block */ 8619 (un->un_dp->options & ST_READ_IGNORE_ILI)) { 8620 fixbit = 2; 8621 } 8622 } else { 8623 com = SCMD_WRITE; 8624 un->un_lastop = ST_OP_WRITE; 8625 } 8626 tval = un->un_dp->io_timeout; 8627 8628 /* 8629 * For really large xfers, increase timeout 8630 */ 8631 if (bp->b_bcount > (10 * ONE_MEG)) 8632 tval *= bp->b_bcount/(10 * ONE_MEG); 8633 8634 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8635 "%s %d amt 0x%lx\n", (com == SCMD_WRITE) ? 8636 wr_str: rd_str, un->un_pos.blkno, bp->b_bcount); 8637 8638 } else if ((ucmd = BP_UCMD(bp)) != NULL) { 8639 /* 8640 * uscsi - build command, allocate scsi resources 8641 */ 8642 st_make_uscsi_cmd(un, ucmd, bp, func); 8643 goto exit; 8644 8645 } else { /* special I/O */ 8646 struct buf *allocbp = NULL; 8647 com = (uchar_t)(uintptr_t)bp->b_forw; 8648 count = bp->b_bcount; 8649 8650 switch (com) { 8651 case SCMD_READ: 8652 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8653 "special read %"PRId64"\n", count); 8654 if (un->un_bsize == 0) { 8655 fixbit = 2; /* suppress SILI */ 8656 } else { 8657 fixbit = 1; /* Fixed Block Mode */ 8658 count /= un->un_bsize; 8659 } 8660 allocbp = bp; 8661 un->un_lastop = ST_OP_READ; 8662 tval = un->un_dp->io_timeout; 8663 break; 8664 8665 case SCMD_WRITE: 8666 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8667 "special write %"PRId64"\n", count); 8668 if (un->un_bsize != 0) { 8669 fixbit = 1; /* Fixed Block Mode */ 8670 count /= un->un_bsize; 8671 } else { 8672 fixbit = 0; 8673 } 8674 allocbp = bp; 8675 un->un_lastop = ST_OP_WRITE; 8676 tval = un->un_dp->io_timeout; 8677 break; 8678 8679 case SCMD_WRITE_FILE_MARK: 8680 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8681 "write %"PRId64" file marks\n", count); 8682 un->un_lastop = ST_OP_WEOF; 8683 fixbit = 0; 8684 tval = un->un_dp->io_timeout; 8685 /* 8686 * If ST_SHORT_FILEMARKS bit is ON for EXABYTE 8687 * device, set the Vendor Unique bit to 8688 * write Short File Mark. 8689 */ 8690 if ((un->un_dp->options & ST_SHORT_FILEMARKS) && 8691 ((un->un_dp->type == ST_TYPE_EXB8500) || 8692 (un->un_dp->type == ST_TYPE_EXABYTE))) { 8693 /* 8694 * Now the Vendor Unique bit 7 in Byte 5 of CDB 8695 * is set to to write Short File Mark 8696 */ 8697 short_fm = 1; 8698 } 8699 break; 8700 8701 case SCMD_REWIND: 8702 /* 8703 * In the case of rewind we're gona do the rewind with 8704 * the immediate bit set so status will be retured when 8705 * the command is accepted by the device. We clear the 8706 * B_ASYNC flag so we wait for that acceptance. 8707 */ 8708 if (bp->b_flags & B_ASYNC) { 8709 allocbp = bp; 8710 if (count) { 8711 fixbit = 1; 8712 bp->b_flags &= ~B_ASYNC; 8713 } 8714 } else { 8715 fixbit = 0; 8716 } 8717 count = 0; 8718 bp->b_bcount = 0; 8719 un->un_lastop = ST_OP_CTL; 8720 tval = un->un_dp->rewind_timeout; 8721 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8722 "rewind\n"); 8723 break; 8724 8725 case SCMD_SPACE_G4: 8726 cdb_len = CDB_GROUP4; 8727 fixbit = SPACE_TYPE(bp->b_bcount); 8728 count = SPACE_CNT(bp->b_bcount); 8729 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 8730 " %s space %s %"PRId64" from file %d blk %d\n", 8731 bp->b_bcount & SP_BACKSP ? "backward" : "forward", 8732 space_strs[fixbit & 7], count, 8733 un->un_pos.fileno, un->un_pos.blkno); 8734 address = (count >> 48) & 0x1fff; 8735 additional = (count >> 16) & 0xffffffff; 8736 count &= 0xffff; 8737 count <<= 16; 8738 un->un_lastop = ST_OP_CTL; 8739 tval = un->un_dp->space_timeout; 8740 break; 8741 8742 case SCMD_SPACE: 8743 fixbit = SPACE_TYPE(bp->b_bcount); 8744 count = SPACE_CNT(bp->b_bcount); 8745 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8746 " %s space %s %"PRId64" from file %d blk %d\n", 8747 bp->b_bcount & SP_BACKSP ? "backward" : "forward", 8748 space_strs[fixbit & 7], count, 8749 un->un_pos.fileno, un->un_pos.blkno); 8750 count &= 0xffffffff; 8751 un->un_lastop = ST_OP_CTL; 8752 tval = un->un_dp->space_timeout; 8753 break; 8754 8755 case SCMD_LOAD: 8756 ASSERT(count < 10); 8757 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8758 "%s tape\n", load_strs[count]); 8759 fixbit = 0; 8760 8761 /* Loading or Unloading */ 8762 if (count & LD_LOAD) { 8763 tval = un->un_dp->load_timeout; 8764 } else { 8765 tval = un->un_dp->unload_timeout; 8766 } 8767 /* Is Retension requested */ 8768 if (count & LD_RETEN) { 8769 tval += un->un_dp->rewind_timeout; 8770 } 8771 un->un_lastop = ST_OP_CTL; 8772 break; 8773 8774 case SCMD_ERASE: 8775 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8776 "erase tape\n"); 8777 ASSERT(count == 1); /* mt sets this */ 8778 if (count == 1) { 8779 /* 8780 * do long erase 8781 */ 8782 fixbit = 1; /* Long */ 8783 8784 /* Drive might not honor immidiate bit */ 8785 tval = un->un_dp->erase_timeout; 8786 } else { 8787 /* Short Erase */ 8788 tval = un->un_dp->erase_timeout; 8789 fixbit = 0; 8790 } 8791 un->un_lastop = ST_OP_CTL; 8792 count = 0; 8793 break; 8794 8795 case SCMD_MODE_SENSE: 8796 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8797 "mode sense\n"); 8798 allocbp = bp; 8799 fixbit = 0; 8800 tval = un->un_dp->non_motion_timeout; 8801 un->un_lastop = ST_OP_CTL; 8802 break; 8803 8804 case SCMD_MODE_SELECT: 8805 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8806 "mode select\n"); 8807 allocbp = bp; 8808 fixbit = 0; 8809 tval = un->un_dp->non_motion_timeout; 8810 un->un_lastop = ST_OP_CTL; 8811 break; 8812 8813 case SCMD_RESERVE: 8814 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8815 "reserve\n"); 8816 fixbit = 0; 8817 tval = un->un_dp->non_motion_timeout; 8818 un->un_lastop = ST_OP_CTL; 8819 break; 8820 8821 case SCMD_RELEASE: 8822 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8823 "release\n"); 8824 fixbit = 0; 8825 tval = un->un_dp->non_motion_timeout; 8826 un->un_lastop = ST_OP_CTL; 8827 break; 8828 8829 case SCMD_READ_BLKLIM: 8830 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8831 "read block limits\n"); 8832 allocbp = bp; 8833 fixbit = count = 0; 8834 tval = un->un_dp->non_motion_timeout; 8835 un->un_lastop = ST_OP_CTL; 8836 break; 8837 8838 case SCMD_TEST_UNIT_READY: 8839 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8840 "test unit ready\n"); 8841 fixbit = 0; 8842 tval = un->un_dp->non_motion_timeout; 8843 un->un_lastop = ST_OP_CTL; 8844 break; 8845 8846 case SCMD_DOORLOCK: 8847 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8848 "prevent/allow media removal\n"); 8849 fixbit = 0; 8850 tval = un->un_dp->non_motion_timeout; 8851 un->un_lastop = ST_OP_CTL; 8852 break; 8853 8854 case SCMD_READ_POSITION: 8855 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8856 "read position\n"); 8857 fixbit = un->un_read_pos_type; 8858 cdb_len = CDB_GROUP1; 8859 tval = un->un_dp->non_motion_timeout; 8860 allocbp = bp; 8861 un->un_lastop = ST_OP_CTL; 8862 switch (un->un_read_pos_type) { 8863 case LONG_POS: 8864 count = 0; 8865 break; 8866 case EXT_POS: 8867 count = sizeof (tape_position_ext_t); 8868 break; 8869 case SHORT_POS: 8870 count = 0; 8871 break; 8872 default: 8873 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 8874 "Unknown read position type 0x%x in " 8875 " st_make_cmd()\n", un->un_read_pos_type); 8876 } 8877 break; 8878 8879 default: 8880 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 8881 "Unhandled scsi command 0x%x in st_make_cmd()\n", 8882 com); 8883 } 8884 8885 pkt = scsi_init_pkt(ROUTE, NULL, allocbp, cdb_len, stat_size, 8886 st_recov_sz, 0, func, (caddr_t)un); 8887 if (pkt == NULL) { 8888 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 8889 "generic command scsi_init_pkt() failure\n"); 8890 goto exit; 8891 } 8892 8893 ASSERT(pkt->pkt_resid == 0); 8894 #ifdef STDEBUG 8895 bzero(pkt->pkt_private, st_recov_sz); 8896 bzero(pkt->pkt_scbp, stat_size); 8897 #endif 8898 ri = (recov_info *)pkt->pkt_private; 8899 ri->privatelen = st_recov_sz; 8900 if (allocbp) { 8901 ASSERT(geterror(allocbp) == 0); 8902 } 8903 8904 } 8905 8906 ucdb = (union scsi_cdb *)pkt->pkt_cdbp; 8907 8908 (void) scsi_setup_cdb(ucdb, com, address, (uint_t)count, additional); 8909 FILL_SCSI1_LUN(un->un_sd, pkt); 8910 /* 8911 * Initialize the SILI/Fixed bits of the byte 1 of cdb. 8912 */ 8913 ucdb->t_code = fixbit; 8914 ucdb->g0_vu_1 = short_fm; 8915 pkt->pkt_flags = flags; 8916 8917 ASSERT(tval); 8918 pkt->pkt_time = tval; 8919 if (bp == un->un_recov_buf) { 8920 pkt->pkt_comp = st_recov_cb; 8921 } else { 8922 pkt->pkt_comp = st_intr; 8923 } 8924 8925 st_add_recovery_info_to_pkt(un, bp, pkt); 8926 8927 /* 8928 * If we just write data to tape and did a command that doesn't 8929 * change position, we still need to write a filemark. 8930 */ 8931 if ((prev_op == ST_OP_WRITE) || (prev_op == ST_OP_WEOF)) { 8932 recov_info *rcvi = pkt->pkt_private; 8933 cmd_attribute const *atrib; 8934 8935 if (rcvi->privatelen == sizeof (recov_info)) { 8936 atrib = rcvi->cmd_attrib; 8937 } else { 8938 atrib = st_lookup_cmd_attribute(com); 8939 } 8940 if (atrib->chg_tape_direction == DIR_NONE) { 8941 un->un_lastop = prev_op; 8942 } 8943 } 8944 8945 exit: 8946 ASSERT(mutex_owned(ST_MUTEX)); 8947 } 8948 8949 8950 /* 8951 * Build a command based on a uscsi command; 8952 */ 8953 static void 8954 st_make_uscsi_cmd(struct scsi_tape *un, struct uscsi_cmd *ucmd, 8955 struct buf *bp, int (*func)(caddr_t)) 8956 { 8957 struct scsi_pkt *pkt; 8958 recov_info *ri; 8959 caddr_t cdb; 8960 int cdblen; 8961 int stat_size = 1; 8962 int flags = 0; 8963 8964 ST_FUNC(ST_DEVINFO, st_make_uscsi_cmd); 8965 8966 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 8967 "st_make_uscsi_cmd(): dev = 0x%lx\n", un->un_dev); 8968 8969 if (ucmd->uscsi_flags & USCSI_RQENABLE) { 8970 if (un->un_arq_enabled) { 8971 if (ucmd->uscsi_rqlen > SENSE_LENGTH) { 8972 stat_size = (int)(ucmd->uscsi_rqlen) + 8973 sizeof (struct scsi_arq_status) - 8974 sizeof (struct scsi_extended_sense); 8975 flags = PKT_XARQ; 8976 } else { 8977 stat_size = sizeof (struct scsi_arq_status); 8978 } 8979 } 8980 } 8981 8982 ASSERT(mutex_owned(ST_MUTEX)); 8983 8984 cdb = ucmd->uscsi_cdb; 8985 cdblen = ucmd->uscsi_cdblen; 8986 8987 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 8988 "st_make_uscsi_cmd: buflen=%ld bcount=%ld\n", 8989 ucmd->uscsi_buflen, bp->b_bcount); 8990 pkt = scsi_init_pkt(ROUTE, NULL, 8991 (bp->b_bcount > 0) ? bp : NULL, 8992 cdblen, stat_size, st_recov_sz, flags, func, (caddr_t)un); 8993 if (pkt == NULL) { 8994 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 8995 "uscsi command scsi_init_pkt() failure\n"); 8996 goto exit; 8997 } 8998 8999 ASSERT(pkt->pkt_resid == 0); 9000 #ifdef STDEBUG 9001 bzero(pkt->pkt_private, st_recov_sz); 9002 bzero(pkt->pkt_scbp, stat_size); 9003 #endif 9004 ri = (recov_info *)pkt->pkt_private; 9005 ri->privatelen = st_recov_sz; 9006 9007 bcopy(cdb, pkt->pkt_cdbp, (uint_t)cdblen); 9008 9009 #ifdef STDEBUG 9010 if ((st_debug & 0x7) >= 6) { 9011 st_clean_print(ST_DEVINFO, st_label, SCSI_DEBUG, 9012 "pkt_cdbp", (char *)cdb, cdblen); 9013 } 9014 #endif 9015 9016 if (ucmd->uscsi_flags & USCSI_SILENT) { 9017 pkt->pkt_flags |= FLAG_SILENT; 9018 } 9019 9020 pkt->pkt_time = ucmd->uscsi_timeout; 9021 if (bp == un->un_recov_buf) { 9022 pkt->pkt_comp = st_recov_cb; 9023 } else { 9024 pkt->pkt_comp = st_intr; 9025 } 9026 st_add_recovery_info_to_pkt(un, bp, pkt); 9027 exit: 9028 ASSERT(mutex_owned(ST_MUTEX)); 9029 } 9030 9031 9032 /* 9033 * restart cmd currently at the head of the runq 9034 * 9035 * If scsi_transport() succeeds or the retries 9036 * count exhausted, restore the throttle that was 9037 * zeroed out in st_handle_intr_busy(). 9038 * 9039 */ 9040 static void 9041 st_intr_restart(void *arg) 9042 { 9043 struct scsi_tape *un = arg; 9044 struct buf *bp; 9045 int queued; 9046 int status = TRAN_ACCEPT; 9047 9048 mutex_enter(ST_MUTEX); 9049 9050 ST_FUNC(ST_DEVINFO, st_intr_restart); 9051 9052 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 9053 "st_intr_restart(), un = 0x%p\n", (void *)un); 9054 9055 un->un_hib_tid = 0; 9056 9057 if (un->un_recov_buf_busy != 0) { 9058 bp = un->un_recov_buf; 9059 queued = 0; 9060 } else if (un->un_sbuf_busy != 0) { 9061 bp = un->un_sbufp; 9062 queued = 0; 9063 } else if (un->un_quef != NULL) { 9064 bp = un->un_quef; 9065 queued = 1; 9066 } else { 9067 mutex_exit(ST_MUTEX); 9068 return; 9069 } 9070 9071 /* 9072 * Here we know : 9073 * throttle = 0, via st_handle_intr_busy 9074 */ 9075 9076 if (queued) { 9077 /* 9078 * move from waitq to runq, if there is anything on the waitq 9079 */ 9080 (void) st_remove_from_queue(&un->un_quef, &un->un_quef, bp); 9081 9082 if (un->un_runqf) { 9083 /* 9084 * not good, we don't want to requeue something after 9085 * another. 9086 */ 9087 goto done_error; 9088 } else { 9089 un->un_runqf = bp; 9090 un->un_runql = bp; 9091 } 9092 } 9093 9094 ST_CDB(ST_DEVINFO, "Interrupt restart CDB", 9095 (char *)BP_PKT(bp)->pkt_cdbp); 9096 9097 ST_DO_KSTATS(bp, kstat_waitq_to_runq); 9098 9099 status = st_transport(un, BP_PKT(bp)); 9100 9101 if (status != TRAN_ACCEPT) { 9102 ST_DO_KSTATS(bp, kstat_runq_back_to_waitq); 9103 9104 if (status == TRAN_BUSY) { 9105 pkt_info *pkti = BP_PKT(bp)->pkt_private; 9106 9107 if (pkti->privatelen == sizeof (recov_info) && 9108 un->un_unit_attention_flags && 9109 bp != un->un_recov_buf) { 9110 un->un_unit_attention_flags = 0; 9111 ST_RECOV(ST_DEVINFO, st_label, CE_WARN, 9112 "Command Recovery called on busy resend\n"); 9113 if (st_command_recovery(un, BP_PKT(bp), 9114 ATTEMPT_RETRY) == JUST_RETURN) { 9115 mutex_exit(ST_MUTEX); 9116 return; 9117 } 9118 } 9119 mutex_exit(ST_MUTEX); 9120 if (st_handle_intr_busy(un, bp, 9121 ST_TRAN_BUSY_TIMEOUT) == 0) 9122 return; /* timeout is setup again */ 9123 mutex_enter(ST_MUTEX); 9124 } 9125 9126 done_error: 9127 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 9128 "restart transport rejected\n"); 9129 bp->b_resid = bp->b_bcount; 9130 9131 if (un->un_last_throttle) { 9132 un->un_throttle = un->un_last_throttle; 9133 } 9134 if (status != TRAN_ACCEPT) { 9135 ST_DO_ERRSTATS(un, st_transerrs); 9136 } 9137 ST_DO_KSTATS(bp, kstat_waitq_exit); 9138 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 9139 "busy restart aborted\n"); 9140 st_set_pe_flag(un); 9141 st_bioerror(bp, EIO); 9142 st_done_and_mutex_exit(un, bp); 9143 } else { 9144 if (un->un_last_throttle) { 9145 un->un_throttle = un->un_last_throttle; 9146 } 9147 mutex_exit(ST_MUTEX); 9148 } 9149 } 9150 9151 /* 9152 * st_check_media(): 9153 * Periodically check the media state using scsi_watch service; 9154 * this service calls back after TUR and possibly request sense 9155 * the callback handler (st_media_watch_cb()) decodes the request sense 9156 * data (if any) 9157 */ 9158 9159 static int 9160 st_check_media(dev_t dev, enum mtio_state state) 9161 { 9162 int rval = 0; 9163 enum mtio_state prev_state; 9164 opaque_t token = NULL; 9165 9166 GET_SOFT_STATE(dev); 9167 9168 ST_FUNC(ST_DEVINFO, st_check_media); 9169 9170 mutex_enter(ST_MUTEX); 9171 9172 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9173 "st_check_media:state=%x, mediastate=%x\n", 9174 state, un->un_mediastate); 9175 9176 prev_state = un->un_mediastate; 9177 9178 /* 9179 * is there anything to do? 9180 */ 9181 retry: 9182 if (state == un->un_mediastate || un->un_mediastate == MTIO_NONE) { 9183 /* 9184 * submit the request to the scsi_watch service; 9185 * scsi_media_watch_cb() does the real work 9186 */ 9187 mutex_exit(ST_MUTEX); 9188 token = scsi_watch_request_submit(ST_SCSI_DEVP, 9189 st_check_media_time, SENSE_LENGTH, 9190 st_media_watch_cb, (caddr_t)dev); 9191 if (token == NULL) { 9192 rval = EAGAIN; 9193 goto done; 9194 } 9195 mutex_enter(ST_MUTEX); 9196 9197 un->un_swr_token = token; 9198 un->un_specified_mediastate = state; 9199 9200 /* 9201 * now wait for media change 9202 * we will not be signalled unless mediastate == state but it 9203 * still better to test for this condition, since there 9204 * is a 5 sec cv_broadcast delay when 9205 * mediastate == MTIO_INSERTED 9206 */ 9207 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9208 "st_check_media:waiting for media state change\n"); 9209 while (un->un_mediastate == state) { 9210 if (cv_wait_sig(&un->un_state_cv, ST_MUTEX) == 0) { 9211 mutex_exit(ST_MUTEX); 9212 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9213 "st_check_media:waiting for media state " 9214 "was interrupted\n"); 9215 rval = EINTR; 9216 goto done; 9217 } 9218 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9219 "st_check_media:received signal, state=%x\n", 9220 un->un_mediastate); 9221 } 9222 } 9223 9224 /* 9225 * if we transitioned to MTIO_INSERTED, media has really been 9226 * inserted. If TUR fails, it is probably a exabyte slow spin up. 9227 * Reset and retry the state change. If everything is ok, replay 9228 * the open() logic. 9229 */ 9230 if ((un->un_mediastate == MTIO_INSERTED) && 9231 (un->un_state == ST_STATE_OFFLINE)) { 9232 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9233 "st_check_media: calling st_cmd to confirm inserted\n"); 9234 9235 /* 9236 * set this early so that TUR will make it through strategy 9237 * without triggering a st_tape_init(). We needed it set 9238 * before calling st_tape_init() ourselves anyway. If TUR 9239 * fails, set it back 9240 */ 9241 un->un_state = ST_STATE_INITIALIZING; 9242 9243 /* 9244 * If not reserved fail as getting reservation conflict 9245 * will make this hang forever. 9246 */ 9247 if ((un->un_rsvd_status & 9248 (ST_RESERVE | ST_APPLICATION_RESERVATIONS)) == 0) { 9249 mutex_exit(ST_MUTEX); 9250 rval = EACCES; 9251 goto done; 9252 } 9253 rval = st_cmd(un, SCMD_TEST_UNIT_READY, 0, SYNC_CMD); 9254 if (rval == EACCES) { 9255 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9256 "st_check_media: TUR got Reservation Conflict\n"); 9257 mutex_exit(ST_MUTEX); 9258 goto done; 9259 } 9260 if (rval) { 9261 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9262 "st_check_media: TUR failed, going to retry\n"); 9263 un->un_mediastate = prev_state; 9264 un->un_state = ST_STATE_OFFLINE; 9265 goto retry; 9266 } 9267 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9268 "st_check_media: media inserted\n"); 9269 9270 /* this also rewinds the tape */ 9271 rval = st_tape_init(un); 9272 if (rval != 0) { 9273 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9274 "st_check_media : OFFLINE init failure "); 9275 un->un_state = ST_STATE_OFFLINE; 9276 un->un_pos.pmode = invalid; 9277 } else { 9278 un->un_state = ST_STATE_OPEN_PENDING_IO; 9279 } 9280 } else if ((un->un_mediastate == MTIO_EJECTED) && 9281 (un->un_state != ST_STATE_OFFLINE)) { 9282 /* 9283 * supported devices must be rewound before ejection 9284 * rewind resets fileno & blkno 9285 */ 9286 un->un_laststate = un->un_state; 9287 un->un_state = ST_STATE_OFFLINE; 9288 } 9289 mutex_exit(ST_MUTEX); 9290 done: 9291 if (token) { 9292 (void) scsi_watch_request_terminate(token, 9293 SCSI_WATCH_TERMINATE_WAIT); 9294 mutex_enter(ST_MUTEX); 9295 un->un_swr_token = (opaque_t)NULL; 9296 mutex_exit(ST_MUTEX); 9297 } 9298 9299 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, "st_check_media: done\n"); 9300 9301 return (rval); 9302 } 9303 9304 /* 9305 * st_media_watch_cb() is called by scsi_watch_thread for 9306 * verifying the request sense data (if any) 9307 */ 9308 static int 9309 st_media_watch_cb(caddr_t arg, struct scsi_watch_result *resultp) 9310 { 9311 struct scsi_status *statusp = resultp->statusp; 9312 struct scsi_extended_sense *sensep = resultp->sensep; 9313 uchar_t actual_sense_length = resultp->actual_sense_length; 9314 struct scsi_tape *un; 9315 enum mtio_state state = MTIO_NONE; 9316 int instance; 9317 dev_t dev = (dev_t)arg; 9318 9319 instance = MTUNIT(dev); 9320 if ((un = ddi_get_soft_state(st_state, instance)) == NULL) { 9321 return (-1); 9322 } 9323 9324 mutex_enter(ST_MUTEX); 9325 ST_FUNC(ST_DEVINFO, st_media_watch_cb); 9326 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 9327 "st_media_watch_cb: status=%x, sensep=%p, len=%x\n", 9328 *((char *)statusp), (void *)sensep, 9329 actual_sense_length); 9330 9331 9332 /* 9333 * if there was a check condition then sensep points to valid 9334 * sense data 9335 * if status was not a check condition but a reservation or busy 9336 * status then the new state is MTIO_NONE 9337 */ 9338 if (sensep) { 9339 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9340 "st_media_watch_cb: KEY=%x, ASC=%x, ASCQ=%x\n", 9341 sensep->es_key, sensep->es_add_code, sensep->es_qual_code); 9342 9343 switch (un->un_dp->type) { 9344 default: 9345 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9346 "st_media_watch_cb: unknown drive type %d, " 9347 "default to ST_TYPE_HP\n", un->un_dp->type); 9348 /* FALLTHROUGH */ 9349 9350 case ST_TYPE_STC3490: /* STK 4220 1/2" cartridge */ 9351 case ST_TYPE_FUJI: /* 1/2" cartridge */ 9352 case ST_TYPE_HP: /* HP 88780 1/2" reel */ 9353 if (un->un_dp->type == ST_TYPE_FUJI) { 9354 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 9355 "st_media_watch_cb: ST_TYPE_FUJI\n"); 9356 } else { 9357 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 9358 "st_media_watch_cb: ST_TYPE_HP\n"); 9359 } 9360 switch (sensep->es_key) { 9361 case KEY_UNIT_ATTENTION: 9362 /* not ready to ready transition */ 9363 /* hp/es_qual_code == 80 on>off>on */ 9364 /* hp/es_qual_code == 0 on>off>unld>ld>on */ 9365 if (sensep->es_add_code == 0x28) { 9366 state = MTIO_INSERTED; 9367 } 9368 break; 9369 case KEY_NOT_READY: 9370 /* in process, rewinding or loading */ 9371 if ((sensep->es_add_code == 0x04) && 9372 (sensep->es_qual_code == 0x00)) { 9373 state = MTIO_EJECTED; 9374 } 9375 break; 9376 } 9377 break; 9378 9379 case ST_TYPE_EXB8500: /* Exabyte 8500 */ 9380 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 9381 "st_media_watch_cb: ST_TYPE_EXB8500\n"); 9382 switch (sensep->es_key) { 9383 case KEY_UNIT_ATTENTION: 9384 /* operator medium removal request */ 9385 if ((sensep->es_add_code == 0x5a) && 9386 (sensep->es_qual_code == 0x01)) { 9387 state = MTIO_EJECTED; 9388 /* not ready to ready transition */ 9389 } else if ((sensep->es_add_code == 0x28) && 9390 (sensep->es_qual_code == 0x00)) { 9391 state = MTIO_INSERTED; 9392 } 9393 break; 9394 case KEY_NOT_READY: 9395 /* medium not present */ 9396 if (sensep->es_add_code == 0x3a) { 9397 state = MTIO_EJECTED; 9398 } 9399 break; 9400 } 9401 break; 9402 case ST_TYPE_EXABYTE: /* Exabyte 8200 */ 9403 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 9404 "st_media_watch_cb: ST_TYPE_EXABYTE\n"); 9405 switch (sensep->es_key) { 9406 case KEY_NOT_READY: 9407 if ((sensep->es_add_code == 0x04) && 9408 (sensep->es_qual_code == 0x00)) { 9409 /* volume not mounted? */ 9410 state = MTIO_EJECTED; 9411 } else if (sensep->es_add_code == 0x3a) { 9412 state = MTIO_EJECTED; 9413 } 9414 break; 9415 case KEY_UNIT_ATTENTION: 9416 state = MTIO_EJECTED; 9417 break; 9418 } 9419 break; 9420 9421 case ST_TYPE_DLT: /* quantum DLT4xxx */ 9422 switch (sensep->es_key) { 9423 case KEY_UNIT_ATTENTION: 9424 if (sensep->es_add_code == 0x28) { 9425 state = MTIO_INSERTED; 9426 } 9427 break; 9428 case KEY_NOT_READY: 9429 if (sensep->es_add_code == 0x04) { 9430 /* in transition but could be either */ 9431 state = un->un_specified_mediastate; 9432 } else if ((sensep->es_add_code == 0x3a) && 9433 (sensep->es_qual_code == 0x00)) { 9434 state = MTIO_EJECTED; 9435 } 9436 break; 9437 } 9438 break; 9439 } 9440 } else if (*((char *)statusp) == STATUS_GOOD) { 9441 state = MTIO_INSERTED; 9442 } 9443 9444 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 9445 "st_media_watch_cb:state=%x, specified=%x\n", 9446 state, un->un_specified_mediastate); 9447 9448 /* 9449 * now signal the waiting thread if this is *not* the specified state; 9450 * delay the signal if the state is MTIO_INSERTED 9451 * to allow the target to recover 9452 */ 9453 if (state != un->un_specified_mediastate) { 9454 un->un_mediastate = state; 9455 if (state == MTIO_INSERTED) { 9456 /* 9457 * delay the signal to give the drive a chance 9458 * to do what it apparently needs to do 9459 */ 9460 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 9461 "st_media_watch_cb:delayed cv_broadcast\n"); 9462 un->un_delay_tid = timeout(st_delayed_cv_broadcast, 9463 un, drv_usectohz((clock_t)MEDIA_ACCESS_DELAY)); 9464 } else { 9465 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 9466 "st_media_watch_cb:immediate cv_broadcast\n"); 9467 cv_broadcast(&un->un_state_cv); 9468 } 9469 } 9470 mutex_exit(ST_MUTEX); 9471 return (0); 9472 } 9473 9474 /* 9475 * delayed cv_broadcast to allow for target to recover 9476 * from media insertion 9477 */ 9478 static void 9479 st_delayed_cv_broadcast(void *arg) 9480 { 9481 struct scsi_tape *un = arg; 9482 9483 ST_FUNC(ST_DEVINFO, st_delayed_cv_broadcast); 9484 9485 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 9486 "st_delayed_cv_broadcast:delayed cv_broadcast\n"); 9487 9488 mutex_enter(ST_MUTEX); 9489 cv_broadcast(&un->un_state_cv); 9490 mutex_exit(ST_MUTEX); 9491 } 9492 9493 /* 9494 * restart cmd currently at the start of the waitq 9495 */ 9496 static void 9497 st_start_restart(void *arg) 9498 { 9499 struct scsi_tape *un = arg; 9500 9501 ST_FUNC(ST_DEVINFO, st_start_restart); 9502 9503 ASSERT(un != NULL); 9504 9505 mutex_enter(ST_MUTEX); 9506 9507 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, "st_tran_restart()\n"); 9508 9509 st_start(un); 9510 9511 mutex_exit(ST_MUTEX); 9512 } 9513 9514 9515 /* 9516 * Command completion processing 9517 * 9518 */ 9519 static void 9520 st_intr(struct scsi_pkt *pkt) 9521 { 9522 recov_info *rcv = pkt->pkt_private; 9523 struct buf *bp = rcv->cmd_bp; 9524 struct scsi_tape *un; 9525 errstate action = COMMAND_DONE; 9526 clock_t timout; 9527 int status; 9528 9529 un = ddi_get_soft_state(st_state, MTUNIT(bp->b_edev)); 9530 9531 ST_FUNC(ST_DEVINFO, st_intr); 9532 9533 ASSERT(un != NULL); 9534 9535 mutex_enter(ST_MUTEX); 9536 9537 ASSERT(bp != un->un_recov_buf); 9538 9539 un->un_rqs_state &= ~(ST_RQS_ERROR); 9540 9541 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, "st_intr()\n"); 9542 9543 if (pkt->pkt_reason != CMD_CMPLT) { 9544 ST_DEBUG(ST_DEVINFO, st_label, CE_WARN, 9545 "Unhappy packet status reason = %s statistics = 0x%x\n", 9546 scsi_rname(pkt->pkt_reason), pkt->pkt_statistics); 9547 9548 /* If device has gone away not much else to do */ 9549 if (pkt->pkt_reason == CMD_DEV_GONE) { 9550 action = COMMAND_DONE_ERROR; 9551 } else if ((pkt == un->un_rqs) || 9552 (un->un_state == ST_STATE_SENSING)) { 9553 ASSERT(pkt == un->un_rqs); 9554 ASSERT(un->un_state == ST_STATE_SENSING); 9555 un->un_state = un->un_laststate; 9556 rcv->cmd_bp = un->un_rqs_bp; 9557 ST_DO_ERRSTATS(un, st_transerrs); 9558 action = COMMAND_DONE_ERROR; 9559 } else { 9560 action = st_handle_incomplete(un, bp); 9561 } 9562 /* 9563 * At this point we know that the command was successfully 9564 * completed. Now what? 9565 */ 9566 } else if ((pkt == un->un_rqs) || (un->un_state == ST_STATE_SENSING)) { 9567 /* 9568 * okay. We were running a REQUEST SENSE. Find 9569 * out what to do next. 9570 */ 9571 ASSERT(pkt == un->un_rqs); 9572 ASSERT(un->un_state == ST_STATE_SENSING); 9573 scsi_sync_pkt(pkt); 9574 action = st_handle_sense(un, bp, &un->un_pos); 9575 /* 9576 * Make rqs isn't going to be retied. 9577 */ 9578 if (action != QUE_BUSY_COMMAND && action != QUE_COMMAND) { 9579 /* 9580 * set pkt back to original packet in case we will have 9581 * to requeue it 9582 */ 9583 pkt = BP_PKT(bp); 9584 rcv->cmd_bp = un->un_rqs_bp; 9585 /* 9586 * some actions are based on un_state, hence 9587 * restore the state st was in before ST_STATE_SENSING. 9588 */ 9589 un->un_state = un->un_laststate; 9590 } 9591 9592 } else if (un->un_arq_enabled && (pkt->pkt_state & STATE_ARQ_DONE)) { 9593 /* 9594 * the transport layer successfully completed an autorqsense 9595 */ 9596 action = st_handle_autosense(un, bp, &un->un_pos); 9597 9598 } else if ((SCBP(pkt)->sts_busy) || 9599 (SCBP(pkt)->sts_chk) || 9600 (SCBP(pkt)->sts_vu7)) { 9601 /* 9602 * Okay, we weren't running a REQUEST SENSE. Call a routine 9603 * to see if the status bits we're okay. If a request sense 9604 * is to be run, that will happen. 9605 */ 9606 action = st_check_error(un, pkt); 9607 } 9608 9609 if (un->un_pwr_mgmt == ST_PWR_SUSPENDED) { 9610 switch (action) { 9611 case QUE_COMMAND: 9612 /* 9613 * return cmd to head to the queue 9614 * since we are suspending so that 9615 * it gets restarted during resume 9616 */ 9617 st_add_to_queue(&un->un_runqf, &un->un_runql, 9618 un->un_runqf, bp); 9619 9620 action = JUST_RETURN; 9621 break; 9622 9623 case QUE_SENSE: 9624 action = COMMAND_DONE_ERROR; 9625 break; 9626 9627 default: 9628 break; 9629 } 9630 } 9631 9632 /* 9633 * check for undetected path failover. 9634 */ 9635 if ((un->un_multipath) && 9636 (un->un_last_path_instance != pkt->pkt_path_instance)) { 9637 if (un->un_state > ST_STATE_OPENING) { 9638 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 9639 "Failover detected, action is %s\n", 9640 errstatenames[action]); 9641 if (action == COMMAND_DONE) { 9642 action = PATH_FAILED; 9643 } 9644 } 9645 un->un_last_path_instance = pkt->pkt_path_instance; 9646 } 9647 9648 /* 9649 * Restore old state if we were sensing. 9650 */ 9651 if (un->un_state == ST_STATE_SENSING && action != QUE_SENSE) { 9652 un->un_state = un->un_laststate; 9653 } 9654 9655 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 9656 "st_intr: pkt=%p, bp=%p, action=%s, status=%x\n", 9657 (void *)pkt, (void *)bp, errstatenames[action], SCBP_C(pkt)); 9658 9659 again: 9660 switch (action) { 9661 case COMMAND_DONE_EACCES: 9662 /* this is to report a reservation conflict */ 9663 st_bioerror(bp, EACCES); 9664 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 9665 "Reservation Conflict \n"); 9666 un->un_pos.pmode = invalid; 9667 9668 /*FALLTHROUGH*/ 9669 case COMMAND_DONE_ERROR: 9670 if (un->un_pos.eof < ST_EOT_PENDING && 9671 un->un_state >= ST_STATE_OPEN) { 9672 /* 9673 * all errors set state of the tape to 'unknown' 9674 * unless we're at EOT or are doing append testing. 9675 * If sense key was illegal request, preserve state. 9676 */ 9677 if (un->un_status != KEY_ILLEGAL_REQUEST) { 9678 un->un_pos.pmode = invalid; 9679 } 9680 } 9681 9682 un->un_err_resid = bp->b_resid = bp->b_bcount; 9683 /* 9684 * since we have an error (COMMAND_DONE_ERROR), we want to 9685 * make sure an error ocurrs, so make sure at least EIO is 9686 * returned 9687 */ 9688 if (geterror(bp) == 0) 9689 st_bioerror(bp, EIO); 9690 9691 st_set_pe_flag(un); 9692 if (!(un->un_rqs_state & ST_RQS_ERROR) && 9693 (un->un_errno == EIO)) { 9694 un->un_rqs_state &= ~(ST_RQS_VALID); 9695 } 9696 break; 9697 9698 case COMMAND_DONE_ERROR_RECOVERED: 9699 un->un_err_resid = bp->b_resid = bp->b_bcount; 9700 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 9701 "st_intr(): COMMAND_DONE_ERROR_RECOVERED"); 9702 if (geterror(bp) == 0) { 9703 st_bioerror(bp, EIO); 9704 } 9705 st_set_pe_flag(un); 9706 if (!(un->un_rqs_state & ST_RQS_ERROR) && 9707 (un->un_errno == EIO)) { 9708 un->un_rqs_state &= ~(ST_RQS_VALID); 9709 } 9710 /*FALLTHROUGH*/ 9711 case COMMAND_DONE: 9712 st_set_state(un, bp); 9713 break; 9714 9715 case QUE_SENSE: 9716 if ((un->un_ncmds > 1) && !un->un_flush_on_errors) 9717 goto sense_error; 9718 9719 if (un->un_state != ST_STATE_SENSING) { 9720 un->un_laststate = un->un_state; 9721 un->un_state = ST_STATE_SENSING; 9722 } 9723 9724 /* 9725 * zero the sense data. 9726 */ 9727 bzero(un->un_rqs->pkt_scbp, SENSE_LENGTH); 9728 9729 /* 9730 * If this is not a retry on QUE_SENSE point to the original 9731 * bp of the command that got us here. 9732 */ 9733 if (pkt != un->un_rqs) { 9734 ((recov_info *)un->un_rqs->pkt_private)->cmd_bp = bp; 9735 } 9736 9737 if (un->un_throttle) { 9738 un->un_last_throttle = un->un_throttle; 9739 un->un_throttle = 0; 9740 } 9741 9742 ST_CDB(ST_DEVINFO, "Queue sense CDB", 9743 (char *)BP_PKT(bp)->pkt_cdbp); 9744 9745 /* 9746 * never retry this, some other command will have nuked the 9747 * sense, anyway 9748 */ 9749 status = st_transport(un, un->un_rqs); 9750 9751 if (un->un_last_throttle) { 9752 un->un_throttle = un->un_last_throttle; 9753 } 9754 9755 if (status == TRAN_ACCEPT) { 9756 mutex_exit(ST_MUTEX); 9757 return; 9758 } 9759 if (status != TRAN_BUSY) 9760 ST_DO_ERRSTATS(un, st_transerrs); 9761 sense_error: 9762 un->un_pos.pmode = invalid; 9763 st_bioerror(bp, EIO); 9764 st_set_pe_flag(un); 9765 break; 9766 9767 case QUE_BUSY_COMMAND: 9768 /* longish timeout */ 9769 timout = ST_STATUS_BUSY_TIMEOUT; 9770 goto que_it_up; 9771 9772 case QUE_COMMAND: 9773 /* short timeout */ 9774 timout = ST_TRAN_BUSY_TIMEOUT; 9775 que_it_up: 9776 /* 9777 * let st_handle_intr_busy put this bp back on waitq and make 9778 * checks to see if it is ok to requeue the command. 9779 */ 9780 ST_DO_KSTATS(bp, kstat_runq_back_to_waitq); 9781 9782 /* 9783 * Save the throttle before setting up the timeout 9784 */ 9785 if (un->un_throttle) { 9786 un->un_last_throttle = un->un_throttle; 9787 } 9788 mutex_exit(ST_MUTEX); 9789 if (st_handle_intr_busy(un, bp, timout) == 0) 9790 return; /* timeout is setup again */ 9791 9792 mutex_enter(ST_MUTEX); 9793 un->un_pos.pmode = invalid; 9794 un->un_err_resid = bp->b_resid = bp->b_bcount; 9795 st_bioerror(bp, EIO); 9796 st_set_pe_flag(un); 9797 break; 9798 9799 case QUE_LAST_COMMAND: 9800 9801 if ((un->un_ncmds > 1) && !un->un_flush_on_errors) { 9802 scsi_log(ST_DEVINFO, st_label, CE_CONT, 9803 "un_ncmds: %d can't retry cmd \n", un->un_ncmds); 9804 goto last_command_error; 9805 } 9806 mutex_exit(ST_MUTEX); 9807 if (st_handle_intr_retry_lcmd(un, bp) == 0) 9808 return; 9809 mutex_enter(ST_MUTEX); 9810 last_command_error: 9811 un->un_err_resid = bp->b_resid = bp->b_bcount; 9812 un->un_pos.pmode = invalid; 9813 st_bioerror(bp, EIO); 9814 st_set_pe_flag(un); 9815 break; 9816 9817 case COMMAND_TIMEOUT: 9818 case DEVICE_RESET: 9819 case DEVICE_TAMPER: 9820 case ATTEMPT_RETRY: 9821 case PATH_FAILED: 9822 ST_RECOV(ST_DEVINFO, st_label, CE_WARN, 9823 "Command Recovery called on %s status\n", 9824 errstatenames[action]); 9825 action = st_command_recovery(un, pkt, action); 9826 goto again; 9827 9828 default: 9829 ASSERT(0); 9830 /* FALLTHRU */ 9831 case JUST_RETURN: 9832 ST_DO_KSTATS(bp, kstat_runq_back_to_waitq); 9833 mutex_exit(ST_MUTEX); 9834 return; 9835 } 9836 9837 ST_DO_KSTATS(bp, kstat_runq_exit); 9838 st_done_and_mutex_exit(un, bp); 9839 } 9840 9841 static errstate 9842 st_handle_incomplete(struct scsi_tape *un, struct buf *bp) 9843 { 9844 static char *fail = "SCSI transport failed: reason '%s': %s\n"; 9845 recov_info *rinfo; 9846 errstate rval = COMMAND_DONE_ERROR; 9847 struct scsi_pkt *pkt = (un->un_state == ST_STATE_SENSING) ? 9848 un->un_rqs : BP_PKT(bp); 9849 int result; 9850 9851 ST_FUNC(ST_DEVINFO, st_handle_incomplete); 9852 9853 rinfo = (recov_info *)pkt->pkt_private; 9854 9855 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 9856 "st_handle_incomplete(): dev = 0x%lx\n", un->un_dev); 9857 9858 ASSERT(mutex_owned(ST_MUTEX)); 9859 9860 switch (pkt->pkt_reason) { 9861 case CMD_INCOMPLETE: /* tran stopped with not normal state */ 9862 /* 9863 * this occurs when accessing a powered down drive, no 9864 * need to complain; just fail the open 9865 */ 9866 ST_CDB(ST_DEVINFO, "Incomplete CDB", (char *)pkt->pkt_cdbp); 9867 9868 /* 9869 * if we have commands outstanding in HBA, and a command 9870 * comes back incomplete, we're hosed, so reset target 9871 * If we have the bus, but cmd_incomplete, we probably just 9872 * have a failed selection, so don't reset the target, just 9873 * requeue the command and try again 9874 */ 9875 if ((un->un_ncmds > 1) || (pkt->pkt_state != STATE_GOT_BUS)) { 9876 goto reset_target; 9877 } 9878 9879 /* 9880 * Retry selection a couple more times if we're 9881 * open. If opening, we only try just once to 9882 * reduce probe time for nonexistant devices. 9883 */ 9884 if ((un->un_laststate > ST_STATE_OPENING) && 9885 (rinfo->pkt_retry_cnt < st_selection_retry_count)) { 9886 /* XXX check retriable? */ 9887 rval = QUE_COMMAND; 9888 } 9889 ST_DO_ERRSTATS(un, st_transerrs); 9890 break; 9891 9892 case CMD_ABORTED: 9893 /* 9894 * most likely this is caused by flush-on-error support. If 9895 * it was not there, the we're in trouble. 9896 */ 9897 if (!un->un_flush_on_errors) { 9898 un->un_status = SUN_KEY_FATAL; 9899 goto reset_target; 9900 } 9901 9902 st_set_pe_errno(un); 9903 bioerror(bp, un->un_errno); 9904 if (un->un_errno) 9905 return (COMMAND_DONE_ERROR); 9906 else 9907 return (COMMAND_DONE); 9908 9909 case CMD_TIMEOUT: /* Command timed out */ 9910 un->un_status = SUN_KEY_TIMEOUT; 9911 return (COMMAND_TIMEOUT); 9912 9913 case CMD_TRAN_ERR: 9914 case CMD_RESET: 9915 if (pkt->pkt_statistics & (STAT_BUS_RESET | STAT_DEV_RESET)) { 9916 if ((un->un_rsvd_status & 9917 (ST_RESERVE | ST_APPLICATION_RESERVATIONS)) == 9918 ST_RESERVE) { 9919 un->un_rsvd_status |= ST_LOST_RESERVE; 9920 ST_DEBUG3(ST_DEVINFO, st_label, CE_WARN, 9921 "Lost Reservation\n"); 9922 } 9923 rval = DEVICE_RESET; 9924 return (rval); 9925 } 9926 if (pkt->pkt_statistics & (STAT_ABORTED | STAT_TERMINATED)) { 9927 rval = DEVICE_RESET; 9928 return (rval); 9929 } 9930 /*FALLTHROUGH*/ 9931 default: 9932 scsi_log(ST_DEVINFO, st_label, CE_WARN, 9933 "Unhandled packet status reason = %s statistics = 0x%x\n", 9934 scsi_rname(pkt->pkt_reason), pkt->pkt_statistics); 9935 reset_target: 9936 9937 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 9938 "transport completed with %s\n", 9939 scsi_rname(pkt->pkt_reason)); 9940 ST_DO_ERRSTATS(un, st_transerrs); 9941 if ((pkt->pkt_state & STATE_GOT_TARGET) && 9942 ((pkt->pkt_statistics & (STAT_BUS_RESET | STAT_DEV_RESET | 9943 STAT_ABORTED)) == 0)) { 9944 9945 /* 9946 * If we haven't reserved the drive don't reset it. 9947 */ 9948 if ((un->un_rsvd_status & 9949 (ST_RESERVE | ST_APPLICATION_RESERVATIONS)) == 0) { 9950 return (rval); 9951 } 9952 9953 /* 9954 * if we aren't lost yet we will be soon. 9955 */ 9956 un->un_pos.pmode = invalid; 9957 9958 result = st_reset(un, RESET_LUN); 9959 9960 if ((result == 0) && (un->un_state >= ST_STATE_OPEN)) { 9961 /* no hope left to recover */ 9962 scsi_log(ST_DEVINFO, st_label, CE_WARN, 9963 "recovery by resets failed\n"); 9964 return (rval); 9965 } 9966 } 9967 } 9968 9969 9970 if (rinfo->pkt_retry_cnt++ < st_retry_count) { 9971 if (un->un_pwr_mgmt == ST_PWR_SUSPENDED) { 9972 rval = QUE_COMMAND; 9973 } else if (bp == un->un_sbufp) { 9974 if (rinfo->privatelen == sizeof (recov_info)) { 9975 if (rinfo->cmd_attrib->retriable) { 9976 /* 9977 * These commands can be rerun 9978 * with impunity 9979 */ 9980 rval = QUE_COMMAND; 9981 } 9982 } else { 9983 cmd_attribute const *attrib; 9984 attrib = 9985 st_lookup_cmd_attribute(pkt->pkt_cdbp[0]); 9986 if (attrib->retriable) { 9987 rval = QUE_COMMAND; 9988 } 9989 } 9990 } 9991 } else { 9992 rval = COMMAND_DONE_ERROR; 9993 } 9994 9995 if (un->un_state >= ST_STATE_OPEN) { 9996 scsi_log(ST_DEVINFO, st_label, CE_WARN, 9997 fail, scsi_rname(pkt->pkt_reason), 9998 (rval == COMMAND_DONE_ERROR)? 9999 "giving up" : "retrying command"); 10000 } 10001 return (rval); 10002 } 10003 10004 /* 10005 * if the device is busy, then put this bp back on the waitq, on the 10006 * interrupt thread, where we want the head of the queue and not the 10007 * end 10008 * 10009 * The callers of this routine should take measures to save the 10010 * un_throttle in un_last_throttle which will be restored in 10011 * st_intr_restart(). The only exception should be st_intr_restart() 10012 * calling this routine for which the saving is already done. 10013 */ 10014 static int 10015 st_handle_intr_busy(struct scsi_tape *un, struct buf *bp, 10016 clock_t timeout_interval) 10017 { 10018 10019 int queued; 10020 int rval = 0; 10021 pkt_info *pktinfo = BP_PKT(bp)->pkt_private; 10022 10023 mutex_enter(ST_MUTEX); 10024 10025 ST_FUNC(ST_DEVINFO, st_handle_intr_busy); 10026 10027 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 10028 "st_handle_intr_busy(), un = 0x%p\n", (void *)un); 10029 10030 if ((bp != un->un_sbufp) && (bp != un->un_recov_buf)) { 10031 queued = 1; 10032 } else { 10033 queued = 0; 10034 } 10035 10036 /* 10037 * Check to see if we hit the retry timeout. We check to make sure 10038 * this is the first one on the runq and make sure we have not 10039 * queued up any more, so this one has to be the last on the list 10040 * also. If it is not, we have to fail. If it is not the first, but 10041 * is the last we are in trouble anyway, as we are in the interrupt 10042 * context here. 10043 */ 10044 if ((pktinfo->str_retry_cnt++ > st_retry_count) || 10045 ((un->un_runqf != bp) && (un->un_runql != bp) && (queued))) { 10046 rval = -1; 10047 goto exit; 10048 } 10049 10050 /* put the bp back on the waitq */ 10051 if (queued) { 10052 (void) st_remove_from_queue(&un->un_runqf, &un->un_runql, bp); 10053 st_add_to_queue(&un->un_quef, &un->un_quel, un->un_quef, bp); 10054 } 10055 10056 /* 10057 * We don't want any other commands being started in the mean time. 10058 * If start had just released mutex after putting something on the 10059 * runq, we won't even get here. 10060 */ 10061 un->un_throttle = 0; 10062 10063 /* 10064 * send a marker pkt, if appropriate 10065 */ 10066 st_hba_unflush(un); 10067 10068 /* 10069 * all queues are aligned, we are just waiting to 10070 * transport 10071 */ 10072 un->un_hib_tid = timeout(st_intr_restart, un, timeout_interval); 10073 10074 exit: 10075 mutex_exit(ST_MUTEX); 10076 return (rval); 10077 } 10078 10079 /* 10080 * To get one error entry from error stack 10081 */ 10082 static int 10083 st_get_error_entry(struct scsi_tape *un, intptr_t arg, int flag) 10084 { 10085 #ifdef _MULTI_DATAMODEL 10086 /* 10087 * For use when a 32 bit app makes a call into a 10088 * 64 bit ioctl 10089 */ 10090 struct mterror_entry32 err_entry32; 10091 #endif /* _MULTI_DATAMODEL */ 10092 10093 int rval = 0; 10094 struct mterror_entry err_entry; 10095 struct mterror_entry_stack *err_link_entry_p; 10096 size_t arq_status_len_in, arq_status_len_kr; 10097 10098 ST_FUNC(ST_DEVINFO, st_get_error_entry); 10099 10100 ASSERT(mutex_owned(ST_MUTEX)); 10101 10102 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 10103 "st_get_error_entry()\n"); 10104 10105 /* 10106 * if error record stack empty, return ENXIO 10107 */ 10108 if (un->un_error_entry_stk == NULL) { 10109 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 10110 "st_get_error_entry: Error Entry Stack Empty!\n"); 10111 rval = ENXIO; 10112 goto ret; 10113 } 10114 10115 /* 10116 * get the top entry from stack 10117 */ 10118 err_link_entry_p = un->un_error_entry_stk; 10119 arq_status_len_kr = 10120 err_link_entry_p->mtees_entry.mtee_arq_status_len; 10121 10122 #ifdef _MULTI_DATAMODEL 10123 switch (ddi_model_convert_from(flag & FMODELS)) { 10124 case DDI_MODEL_ILP32: 10125 if (ddi_copyin((void *)arg, &err_entry32, 10126 MTERROR_ENTRY_SIZE_32, flag)) { 10127 rval = EFAULT; 10128 goto ret; 10129 } 10130 10131 arq_status_len_in = 10132 (size_t)err_entry32.mtee_arq_status_len; 10133 10134 err_entry32.mtee_cdb_len = 10135 (size32_t)err_link_entry_p->mtees_entry.mtee_cdb_len; 10136 10137 if (arq_status_len_in > arq_status_len_kr) 10138 err_entry32.mtee_arq_status_len = 10139 (size32_t)arq_status_len_kr; 10140 10141 if (ddi_copyout( 10142 err_link_entry_p->mtees_entry.mtee_cdb_buf, 10143 (void *)(uintptr_t)err_entry32.mtee_cdb_buf, 10144 err_entry32.mtee_cdb_len, flag)) { 10145 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 10146 "st_get_error_entry: Copy cdb buffer error!"); 10147 rval = EFAULT; 10148 } 10149 10150 if (ddi_copyout( 10151 err_link_entry_p->mtees_entry.mtee_arq_status, 10152 (void *)(uintptr_t)err_entry32.mtee_arq_status, 10153 err_entry32.mtee_arq_status_len, flag)) { 10154 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 10155 "st_get_error_entry: copy arq status error!"); 10156 rval = EFAULT; 10157 } 10158 10159 if (ddi_copyout(&err_entry32, (void *)arg, 10160 MTERROR_ENTRY_SIZE_32, flag)) { 10161 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 10162 "st_get_error_entry: copy arq status out error!"); 10163 rval = EFAULT; 10164 } 10165 break; 10166 10167 case DDI_MODEL_NONE: 10168 if (ddi_copyin((void *)arg, &err_entry, 10169 MTERROR_ENTRY_SIZE_64, flag)) { 10170 rval = EFAULT; 10171 goto ret; 10172 } 10173 arq_status_len_in = err_entry.mtee_arq_status_len; 10174 10175 err_entry.mtee_cdb_len = 10176 err_link_entry_p->mtees_entry.mtee_cdb_len; 10177 10178 if (arq_status_len_in > arq_status_len_kr) 10179 err_entry.mtee_arq_status_len = 10180 arq_status_len_kr; 10181 10182 if (ddi_copyout( 10183 err_link_entry_p->mtees_entry.mtee_cdb_buf, 10184 err_entry.mtee_cdb_buf, 10185 err_entry.mtee_cdb_len, flag)) { 10186 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 10187 "st_get_error_entry: Copy cdb buffer error!"); 10188 rval = EFAULT; 10189 } 10190 10191 if (ddi_copyout( 10192 err_link_entry_p->mtees_entry.mtee_arq_status, 10193 err_entry.mtee_arq_status, 10194 err_entry.mtee_arq_status_len, flag)) { 10195 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 10196 "st_get_error_entry: copy arq status error!"); 10197 rval = EFAULT; 10198 } 10199 10200 if (ddi_copyout(&err_entry, (void *)arg, 10201 MTERROR_ENTRY_SIZE_64, flag)) { 10202 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 10203 "st_get_error_entry: copy arq status out error!"); 10204 rval = EFAULT; 10205 } 10206 break; 10207 } 10208 #else /* _MULTI_DATAMODEL */ 10209 if (ddi_copyin((void *)arg, &err_entry, 10210 MTERROR_ENTRY_SIZE_64, flag)) { 10211 rval = EFAULT; 10212 goto ret; 10213 } 10214 arq_status_len_in = err_entry.mtee_arq_status_len; 10215 10216 err_entry.mtee_cdb_len = 10217 err_link_entry_p->mtees_entry.mtee_cdb_len; 10218 10219 if (arq_status_len_in > arq_status_len_kr) 10220 err_entry.mtee_arq_status_len = 10221 arq_status_len_kr; 10222 10223 if (ddi_copyout( 10224 err_link_entry_p->mtees_entry.mtee_cdb_buf, 10225 err_entry.mtee_cdb_buf, 10226 err_entry.mtee_cdb_len, flag)) { 10227 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 10228 "st_get_error_entry: Copy cdb buffer error!"); 10229 rval = EFAULT; 10230 } 10231 10232 if (ddi_copyout( 10233 err_link_entry_p->mtees_entry.mtee_arq_status, 10234 err_entry.mtee_arq_status, 10235 err_entry.mtee_arq_status_len, flag)) { 10236 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 10237 "st_get_error_entry: copy arq status buffer error!"); 10238 rval = EFAULT; 10239 } 10240 10241 if (ddi_copyout(&err_entry, (void *)arg, 10242 MTERROR_ENTRY_SIZE_64, flag)) { 10243 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 10244 "st_get_error_entry: copy arq status out error!"); 10245 rval = EFAULT; 10246 } 10247 #endif /* _MULTI_DATAMODEL */ 10248 10249 /* 10250 * update stack 10251 */ 10252 un->un_error_entry_stk = err_link_entry_p->mtees_nextp; 10253 10254 kmem_free(err_link_entry_p->mtees_entry.mtee_cdb_buf, 10255 err_link_entry_p->mtees_entry.mtee_cdb_len); 10256 err_link_entry_p->mtees_entry.mtee_cdb_buf = NULL; 10257 10258 kmem_free(err_link_entry_p->mtees_entry.mtee_arq_status, 10259 SECMDS_STATUS_SIZE); 10260 err_link_entry_p->mtees_entry.mtee_arq_status = NULL; 10261 10262 kmem_free(err_link_entry_p, MTERROR_LINK_ENTRY_SIZE); 10263 err_link_entry_p = NULL; 10264 ret: 10265 return (rval); 10266 } 10267 10268 /* 10269 * MTIOCGETERROR ioctl needs to retrieve the current sense data along with 10270 * the scsi CDB command which causes the error and generates sense data and 10271 * the scsi status. 10272 * 10273 * error-record stack 10274 * 10275 * 10276 * TOP BOTTOM 10277 * ------------------------------------------ 10278 * | 0 | 1 | 2 | ... | n | 10279 * ------------------------------------------ 10280 * ^ 10281 * | 10282 * pointer to error entry 10283 * 10284 * when st driver generates one sense data record, it creates a error-entry 10285 * and pushes it onto the stack. 10286 * 10287 */ 10288 10289 static void 10290 st_update_error_stack(struct scsi_tape *un, 10291 struct scsi_pkt *pkt, 10292 struct scsi_arq_status *cmd) 10293 { 10294 struct mterror_entry_stack *err_entry_tmp; 10295 uchar_t *cdbp = (uchar_t *)pkt->pkt_cdbp; 10296 size_t cdblen = scsi_cdb_size[CDB_GROUPID(cdbp[0])]; 10297 10298 ST_FUNC(ST_DEVINFO, st_update_error_stack); 10299 10300 ASSERT(mutex_owned(ST_MUTEX)); 10301 10302 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 10303 "st_update_error_stack()\n"); 10304 10305 ASSERT(cmd); 10306 ASSERT(cdbp); 10307 if (cdblen == 0) { 10308 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 10309 "st_update_error_stack: CDB length error!\n"); 10310 return; 10311 } 10312 10313 err_entry_tmp = kmem_alloc(MTERROR_LINK_ENTRY_SIZE, KM_SLEEP); 10314 ASSERT(err_entry_tmp != NULL); 10315 10316 err_entry_tmp->mtees_entry.mtee_cdb_buf = 10317 kmem_alloc(cdblen, KM_SLEEP); 10318 ASSERT(err_entry_tmp->mtees_entry.mtee_cdb_buf != NULL); 10319 10320 err_entry_tmp->mtees_entry.mtee_arq_status = 10321 kmem_alloc(SECMDS_STATUS_SIZE, KM_SLEEP); 10322 ASSERT(err_entry_tmp->mtees_entry.mtee_arq_status != NULL); 10323 10324 /* 10325 * copy cdb command & length to current error entry 10326 */ 10327 err_entry_tmp->mtees_entry.mtee_cdb_len = cdblen; 10328 bcopy(cdbp, err_entry_tmp->mtees_entry.mtee_cdb_buf, cdblen); 10329 10330 /* 10331 * copy scsi status length to current error entry 10332 */ 10333 err_entry_tmp->mtees_entry.mtee_arq_status_len = 10334 SECMDS_STATUS_SIZE; 10335 10336 /* 10337 * copy sense data and scsi status to current error entry 10338 */ 10339 bcopy(cmd, err_entry_tmp->mtees_entry.mtee_arq_status, 10340 SECMDS_STATUS_SIZE); 10341 10342 err_entry_tmp->mtees_nextp = un->un_error_entry_stk; 10343 un->un_error_entry_stk = err_entry_tmp; 10344 10345 } 10346 10347 /* 10348 * Empty all the error entry in stack 10349 */ 10350 static void 10351 st_empty_error_stack(struct scsi_tape *un) 10352 { 10353 struct mterror_entry_stack *linkp; 10354 10355 ST_FUNC(ST_DEVINFO, st_empty_error_stack); 10356 10357 ASSERT(mutex_owned(ST_MUTEX)); 10358 10359 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 10360 "st_empty_entry_stack()\n"); 10361 10362 while (un->un_error_entry_stk != NULL) { 10363 linkp = un->un_error_entry_stk; 10364 un->un_error_entry_stk = 10365 un->un_error_entry_stk->mtees_nextp; 10366 10367 if (linkp->mtees_entry.mtee_cdb_buf != NULL) 10368 kmem_free(linkp->mtees_entry.mtee_cdb_buf, 10369 linkp->mtees_entry.mtee_cdb_len); 10370 10371 if (linkp->mtees_entry.mtee_arq_status != NULL) 10372 kmem_free(linkp->mtees_entry.mtee_arq_status, 10373 linkp->mtees_entry.mtee_arq_status_len); 10374 10375 kmem_free(linkp, MTERROR_LINK_ENTRY_SIZE); 10376 linkp = NULL; 10377 } 10378 } 10379 10380 static errstate 10381 st_handle_sense(struct scsi_tape *un, struct buf *bp, tapepos_t *pos) 10382 { 10383 struct scsi_pkt *pkt = BP_PKT(bp); 10384 struct scsi_pkt *rqpkt = un->un_rqs; 10385 struct scsi_arq_status arqstat; 10386 recov_info *rcif = pkt->pkt_private; 10387 10388 errstate rval = COMMAND_DONE_ERROR; 10389 int amt; 10390 10391 ST_FUNC(ST_DEVINFO, st_handle_sense); 10392 10393 ASSERT(mutex_owned(ST_MUTEX)); 10394 10395 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 10396 "st_handle_sense()\n"); 10397 10398 if (SCBP(rqpkt)->sts_busy) { 10399 if (rcif->privatelen == sizeof (recov_info)) { 10400 ST_RECOV(ST_DEVINFO, st_label, CE_WARN, 10401 "Attempt recovery of busy unit on request sense\n"); 10402 rval = ATTEMPT_RETRY; 10403 } else if (rcif->pkt_retry_cnt++ < st_retry_count) { 10404 ST_DEBUG4(ST_DEVINFO, st_label, CE_WARN, 10405 "Retry busy unit on request sense\n"); 10406 rval = QUE_BUSY_COMMAND; 10407 } 10408 return (rval); 10409 } else if (SCBP(rqpkt)->sts_chk) { 10410 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 10411 "Check Condition on REQUEST SENSE\n"); 10412 return (rval); 10413 } 10414 10415 /* 10416 * Make sure there is sense data to look at. 10417 */ 10418 if ((rqpkt->pkt_state & (STATE_GOT_BUS | STATE_GOT_TARGET | 10419 STATE_SENT_CMD | STATE_GOT_STATUS)) != (STATE_GOT_BUS | 10420 STATE_GOT_TARGET | STATE_SENT_CMD | STATE_GOT_STATUS)) { 10421 return (rval); 10422 } 10423 10424 /* was there enough data? */ 10425 amt = (int)MAX_SENSE_LENGTH - rqpkt->pkt_resid; 10426 if ((rqpkt->pkt_state & STATE_XFERRED_DATA) == 0 || 10427 (amt < SUN_MIN_SENSE_LENGTH)) { 10428 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 10429 "REQUEST SENSE couldn't get sense data\n"); 10430 return (rval); 10431 } 10432 10433 bcopy(SCBP(pkt), &arqstat.sts_status, 10434 sizeof (struct scsi_status)); 10435 bcopy(SCBP(rqpkt), &arqstat.sts_rqpkt_status, 10436 sizeof (struct scsi_status)); 10437 arqstat.sts_rqpkt_reason = rqpkt->pkt_reason; 10438 arqstat.sts_rqpkt_resid = rqpkt->pkt_resid; 10439 arqstat.sts_rqpkt_state = rqpkt->pkt_state; 10440 arqstat.sts_rqpkt_statistics = rqpkt->pkt_statistics; 10441 bcopy(ST_RQSENSE, &arqstat.sts_sensedata, SENSE_LENGTH); 10442 10443 /* 10444 * copy one arqstat entry in the sense data buffer 10445 */ 10446 st_update_error_stack(un, pkt, &arqstat); 10447 return (st_decode_sense(un, bp, amt, &arqstat, pos)); 10448 } 10449 10450 static errstate 10451 st_handle_autosense(struct scsi_tape *un, struct buf *bp, tapepos_t *pos) 10452 { 10453 struct scsi_pkt *pkt = BP_PKT(bp); 10454 struct scsi_arq_status *arqstat = 10455 (struct scsi_arq_status *)pkt->pkt_scbp; 10456 errstate rval = COMMAND_DONE_ERROR; 10457 int amt; 10458 10459 ST_FUNC(ST_DEVINFO, st_handle_autosense); 10460 10461 ASSERT(mutex_owned(ST_MUTEX)); 10462 10463 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 10464 "st_handle_autosense()\n"); 10465 10466 if (arqstat->sts_rqpkt_status.sts_busy) { 10467 ST_DEBUG4(ST_DEVINFO, st_label, CE_WARN, 10468 "busy unit on request sense\n"); 10469 /* 10470 * we return QUE_SENSE so st_intr will setup the SENSE cmd. 10471 * the disadvantage is that we do not have any delay for the 10472 * second retry of rqsense and we have to keep a packet around 10473 */ 10474 return (QUE_SENSE); 10475 10476 } else if (arqstat->sts_rqpkt_reason != CMD_CMPLT) { 10477 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 10478 "transport error on REQUEST SENSE\n"); 10479 if ((arqstat->sts_rqpkt_state & STATE_GOT_TARGET) && 10480 ((arqstat->sts_rqpkt_statistics & 10481 (STAT_BUS_RESET | STAT_DEV_RESET | STAT_ABORTED)) == 0)) { 10482 if (st_reset(un, RESET_LUN) == 0) { 10483 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 10484 "recovery by resets failed\n"); 10485 } 10486 } 10487 return (rval); 10488 10489 } else if (arqstat->sts_rqpkt_status.sts_chk) { 10490 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 10491 "Check Condition on REQUEST SENSE\n"); 10492 return (rval); 10493 } 10494 10495 10496 /* was there enough data? */ 10497 if (pkt->pkt_state & STATE_XARQ_DONE) { 10498 amt = (int)MAX_SENSE_LENGTH - arqstat->sts_rqpkt_resid; 10499 } else { 10500 if (arqstat->sts_rqpkt_resid > SENSE_LENGTH) { 10501 amt = (int)MAX_SENSE_LENGTH - arqstat->sts_rqpkt_resid; 10502 } else { 10503 amt = (int)SENSE_LENGTH - arqstat->sts_rqpkt_resid; 10504 } 10505 } 10506 if ((arqstat->sts_rqpkt_state & STATE_XFERRED_DATA) == 0 || 10507 (amt < SUN_MIN_SENSE_LENGTH)) { 10508 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 10509 "REQUEST SENSE couldn't get sense data\n"); 10510 return (rval); 10511 } 10512 10513 if (pkt->pkt_state & STATE_XARQ_DONE) { 10514 bcopy(&arqstat->sts_sensedata, ST_RQSENSE, MAX_SENSE_LENGTH); 10515 } else { 10516 bcopy(&arqstat->sts_sensedata, ST_RQSENSE, SENSE_LENGTH); 10517 } 10518 10519 /* 10520 * copy one arqstat entry in the sense data buffer 10521 */ 10522 st_update_error_stack(un, pkt, arqstat); 10523 10524 return (st_decode_sense(un, bp, amt, arqstat, pos)); 10525 } 10526 10527 static errstate 10528 st_decode_sense(struct scsi_tape *un, struct buf *bp, int amt, 10529 struct scsi_arq_status *statusp, tapepos_t *pos) 10530 { 10531 struct scsi_pkt *pkt = BP_PKT(bp); 10532 recov_info *ri = pkt->pkt_private; 10533 errstate rval = COMMAND_DONE_ERROR; 10534 cmd_attribute const *attrib; 10535 long resid; 10536 struct scsi_extended_sense *sensep = ST_RQSENSE; 10537 int severity; 10538 int get_error; 10539 10540 ST_FUNC(ST_DEVINFO, st_decode_sense); 10541 10542 ASSERT(mutex_owned(ST_MUTEX)); 10543 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 10544 "st_decode_sense()\n"); 10545 10546 /* 10547 * For uscsi commands, squirrel away a copy of the 10548 * results of the Request Sense. 10549 */ 10550 if (USCSI_CMD(bp)) { 10551 struct uscsi_cmd *ucmd = BP_UCMD(bp); 10552 ucmd->uscsi_rqstatus = *(uchar_t *)statusp; 10553 if (ucmd->uscsi_rqlen && un->un_srqbufp) { 10554 uchar_t rqlen = min((uchar_t)amt, ucmd->uscsi_rqlen); 10555 ucmd->uscsi_rqresid = ucmd->uscsi_rqlen - rqlen; 10556 bcopy(ST_RQSENSE, un->un_srqbufp, rqlen); 10557 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 10558 "st_decode_sense: stat=0x%x resid=0x%x\n", 10559 ucmd->uscsi_rqstatus, ucmd->uscsi_rqresid); 10560 } 10561 } 10562 10563 if (ri->privatelen == sizeof (recov_info)) { 10564 attrib = ri->cmd_attrib; 10565 } else { 10566 attrib = st_lookup_cmd_attribute(pkt->pkt_cdbp[0]); 10567 } 10568 10569 /* 10570 * If the drive is an MT-02, reposition the 10571 * secondary error code into the proper place. 10572 * 10573 * XXX MT-02 is non-CCS tape, so secondary error code 10574 * is in byte 8. However, in SCSI-2, tape has CCS definition 10575 * so it's in byte 12. 10576 */ 10577 if (un->un_dp->type == ST_TYPE_EMULEX) { 10578 sensep->es_code = sensep->es_add_info[0]; 10579 } 10580 10581 ST_CDB(ST_DEVINFO, "st_decode_sense failed CDB", 10582 (caddr_t)&CDBP(pkt)->scc_cmd); 10583 10584 ST_SENSE(ST_DEVINFO, "st_decode_sense sense data", (caddr_t)statusp, 10585 sizeof (*statusp)); 10586 10587 /* for normal I/O check extract the resid values. */ 10588 if (bp != un->un_sbufp && bp != un->un_recov_buf) { 10589 if (sensep->es_valid) { 10590 resid = 10591 (sensep->es_info_1 << 24) | 10592 (sensep->es_info_2 << 16) | 10593 (sensep->es_info_3 << 8) | 10594 (sensep->es_info_4); 10595 /* If fixed block */ 10596 if (un->un_bsize) { 10597 resid *= un->un_bsize; 10598 } 10599 } else if (pkt->pkt_state & STATE_XFERRED_DATA) { 10600 resid = pkt->pkt_resid; 10601 } else { 10602 resid = bp->b_bcount; 10603 } 10604 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 10605 "st_decode_sense (rw): xferred bit = %d, resid=%ld (%d), " 10606 "pkt_resid=%ld\n", pkt->pkt_state & STATE_XFERRED_DATA, 10607 resid, 10608 (sensep->es_info_1 << 24) | 10609 (sensep->es_info_2 << 16) | 10610 (sensep->es_info_3 << 8) | 10611 (sensep->es_info_4), 10612 pkt->pkt_resid); 10613 /* 10614 * The problem is, what should we believe? 10615 */ 10616 if (resid && (pkt->pkt_resid == 0)) { 10617 pkt->pkt_resid = resid; 10618 } 10619 } else { 10620 /* 10621 * If the command is SCMD_SPACE, we need to get the 10622 * residual as returned in the sense data, to adjust 10623 * our idea of current tape position correctly 10624 */ 10625 if ((sensep->es_valid) && 10626 (CDBP(pkt)->scc_cmd == SCMD_LOCATE) || 10627 (CDBP(pkt)->scc_cmd == SCMD_LOCATE_G4) || 10628 (CDBP(pkt)->scc_cmd == SCMD_SPACE) || 10629 (CDBP(pkt)->scc_cmd == SCMD_SPACE_G4) || 10630 (CDBP(pkt)->scc_cmd == SCMD_WRITE_FILE_MARK)) { 10631 resid = 10632 (sensep->es_info_1 << 24) | 10633 (sensep->es_info_2 << 16) | 10634 (sensep->es_info_3 << 8) | 10635 (sensep->es_info_4); 10636 bp->b_resid = resid; 10637 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 10638 "st_decode_sense(other): resid=%ld\n", resid); 10639 } else { 10640 /* 10641 * If the special command is SCMD_READ, 10642 * the correct resid will be set later. 10643 */ 10644 if (attrib->get_cnt != NULL) { 10645 resid = attrib->get_cnt(pkt->pkt_cdbp); 10646 } else { 10647 resid = bp->b_bcount; 10648 } 10649 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 10650 "st_decode_sense(special read): resid=%ld\n", 10651 resid); 10652 } 10653 } 10654 10655 if ((un->un_state >= ST_STATE_OPEN) && 10656 (DEBUGGING || st_error_level == SCSI_ERR_ALL)) { 10657 st_print_cdb(ST_DEVINFO, st_label, CE_NOTE, 10658 "Failed CDB", (char *)pkt->pkt_cdbp); 10659 st_clean_print(ST_DEVINFO, st_label, CE_CONT, 10660 "sense data", (char *)sensep, amt); 10661 scsi_log(ST_DEVINFO, st_label, CE_CONT, 10662 "count 0x%lx resid 0x%lx pktresid 0x%lx\n", 10663 bp->b_bcount, resid, pkt->pkt_resid); 10664 } 10665 10666 switch (un->un_status = sensep->es_key) { 10667 case KEY_NO_SENSE: 10668 severity = SCSI_ERR_INFO; 10669 10670 /* 10671 * Erase, locate or rewind operation in progress, retry 10672 * ASC ASCQ 10673 * 00 18 Erase operation in progress 10674 * 00 19 Locate operation in progress 10675 * 00 1A Rewind operation in progress 10676 */ 10677 if (sensep->es_add_code == 0 && 10678 ((sensep->es_qual_code == 0x18) || 10679 (sensep->es_qual_code == 0x19) || 10680 (sensep->es_qual_code == 0x1a))) { 10681 rval = QUE_BUSY_COMMAND; 10682 break; 10683 } 10684 10685 goto common; 10686 10687 case KEY_RECOVERABLE_ERROR: 10688 severity = SCSI_ERR_RECOVERED; 10689 if ((sensep->es_class == CLASS_EXTENDED_SENSE) && 10690 (sensep->es_code == ST_DEFERRED_ERROR)) { 10691 if (un->un_dp->options & 10692 ST_RETRY_ON_RECOVERED_DEFERRED_ERROR) { 10693 rval = QUE_LAST_COMMAND; 10694 scsi_errmsg(ST_SCSI_DEVP, pkt, st_label, 10695 severity, pos->lgclblkno, 10696 un->un_err_pos.lgclblkno, scsi_cmds, 10697 sensep); 10698 scsi_log(ST_DEVINFO, st_label, CE_CONT, 10699 "Command will be retried\n"); 10700 } else { 10701 severity = SCSI_ERR_FATAL; 10702 rval = COMMAND_DONE_ERROR_RECOVERED; 10703 ST_DO_ERRSTATS(un, st_softerrs); 10704 scsi_errmsg(ST_SCSI_DEVP, pkt, st_label, 10705 severity, pos->lgclblkno, 10706 un->un_err_pos.lgclblkno, scsi_cmds, 10707 sensep); 10708 } 10709 break; 10710 } 10711 common: 10712 /* 10713 * XXX only want reads to be stopped by filemarks. 10714 * Don't want them to be stopped by EOT. EOT matters 10715 * only on write. 10716 */ 10717 if (sensep->es_filmk && !sensep->es_eom) { 10718 rval = COMMAND_DONE; 10719 } else if (sensep->es_eom) { 10720 rval = COMMAND_DONE; 10721 } else if (sensep->es_ili) { 10722 /* 10723 * Fun with variable length record devices: 10724 * for specifying larger blocks sizes than the 10725 * actual physical record size. 10726 */ 10727 if (un->un_bsize == 0 && resid > 0) { 10728 /* 10729 * XXX! Ugly. 10730 * The requested blocksize is > tape blocksize, 10731 * so this is ok, so we just return the 10732 * actual size xferred. 10733 */ 10734 pkt->pkt_resid = resid; 10735 rval = COMMAND_DONE; 10736 } else if (un->un_bsize == 0 && resid < 0) { 10737 /* 10738 * The requested blocksize is < tape blocksize, 10739 * so this is not ok, so we err with ENOMEM 10740 */ 10741 rval = COMMAND_DONE_ERROR_RECOVERED; 10742 st_bioerror(bp, ENOMEM); 10743 } else { 10744 ST_DO_ERRSTATS(un, st_softerrs); 10745 severity = SCSI_ERR_FATAL; 10746 rval = COMMAND_DONE_ERROR; 10747 st_bioerror(bp, EINVAL); 10748 un->un_running.pmode = invalid; 10749 } 10750 } else { 10751 /* 10752 * we hope and pray for this just being 10753 * something we can ignore (ie. a 10754 * truly recoverable soft error) 10755 */ 10756 rval = COMMAND_DONE; 10757 } 10758 if (sensep->es_filmk) { 10759 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 10760 "filemark\n"); 10761 un->un_status = SUN_KEY_EOF; 10762 pos->eof = ST_EOF_PENDING; 10763 st_set_pe_flag(un); 10764 } 10765 10766 /* 10767 * ignore eom when reading, a fmk should terminate reading 10768 */ 10769 if ((sensep->es_eom) && 10770 (CDBP(pkt)->scc_cmd != SCMD_READ)) { 10771 if ((sensep->es_add_code == 0) && 10772 (sensep->es_qual_code == 4)) { 10773 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 10774 "bot\n"); 10775 un->un_status = SUN_KEY_BOT; 10776 pos->eof = ST_NO_EOF; 10777 pos->lgclblkno = 0; 10778 pos->fileno = 0; 10779 pos->blkno = 0; 10780 if (pos->pmode != legacy) 10781 pos->pmode = legacy; 10782 } else { 10783 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 10784 "eom\n"); 10785 un->un_status = SUN_KEY_EOT; 10786 pos->eof = ST_EOM; 10787 } 10788 st_set_pe_flag(un); 10789 } 10790 10791 break; 10792 10793 case KEY_ILLEGAL_REQUEST: 10794 10795 if (un->un_laststate >= ST_STATE_OPEN) { 10796 ST_DO_ERRSTATS(un, st_softerrs); 10797 severity = SCSI_ERR_FATAL; 10798 } else { 10799 severity = SCSI_ERR_INFO; 10800 } 10801 break; 10802 10803 case KEY_MEDIUM_ERROR: 10804 ST_DO_ERRSTATS(un, st_harderrs); 10805 severity = SCSI_ERR_FATAL; 10806 check_keys: 10807 /* 10808 * attempt to process the keys in the presence of 10809 * other errors 10810 */ 10811 if (sensep->es_ili && rval != COMMAND_DONE_ERROR) { 10812 /* 10813 * Fun with variable length record devices: 10814 * for specifying larger blocks sizes than the 10815 * actual physical record size. 10816 */ 10817 if (un->un_bsize == 0 && resid > 0) { 10818 /* 10819 * XXX! Ugly 10820 */ 10821 pkt->pkt_resid = resid; 10822 } else if (un->un_bsize == 0 && resid < 0) { 10823 st_bioerror(bp, EINVAL); 10824 } else { 10825 severity = SCSI_ERR_FATAL; 10826 rval = COMMAND_DONE_ERROR; 10827 st_bioerror(bp, EINVAL); 10828 } 10829 } 10830 if (sensep->es_filmk) { 10831 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 10832 "filemark\n"); 10833 un->un_status = SUN_KEY_EOF; 10834 pos->eof = ST_EOF_PENDING; 10835 st_set_pe_flag(un); 10836 } 10837 10838 /* 10839 * ignore eom when reading, a fmk should terminate reading 10840 */ 10841 if ((sensep->es_eom) && 10842 (CDBP(pkt)->scc_cmd != SCMD_READ)) { 10843 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, "eom\n"); 10844 un->un_status = SUN_KEY_EOT; 10845 pos->eof = ST_EOM; 10846 st_set_pe_flag(un); 10847 } 10848 10849 break; 10850 10851 case KEY_VOLUME_OVERFLOW: 10852 ST_DO_ERRSTATS(un, st_softerrs); 10853 pos->eof = ST_EOM; 10854 severity = SCSI_ERR_FATAL; 10855 rval = COMMAND_DONE_ERROR; 10856 goto check_keys; 10857 10858 case KEY_HARDWARE_ERROR: 10859 ST_DO_ERRSTATS(un, st_harderrs); 10860 severity = SCSI_ERR_FATAL; 10861 rval = COMMAND_DONE_ERROR; 10862 if (un->un_dp->options & ST_EJECT_ON_CHANGER_FAILURE) 10863 un->un_eject_tape_on_failure = st_check_asc_ascq(un); 10864 break; 10865 10866 case KEY_BLANK_CHECK: 10867 ST_DO_ERRSTATS(un, st_softerrs); 10868 severity = SCSI_ERR_INFO; 10869 10870 /* 10871 * if not a special request and some data was xferred then it 10872 * it is not an error yet 10873 */ 10874 if (bp != un->un_sbufp && (bp->b_flags & B_READ)) { 10875 /* 10876 * no error for read with or without data xferred 10877 */ 10878 un->un_status = SUN_KEY_EOT; 10879 pos->eof = ST_EOT; 10880 rval = COMMAND_DONE_ERROR; 10881 un->un_running.pmode = invalid; 10882 st_set_pe_flag(un); 10883 goto check_keys; 10884 } else if (bp != un->un_sbufp && 10885 (pkt->pkt_state & STATE_XFERRED_DATA)) { 10886 rval = COMMAND_DONE; 10887 } else { 10888 rval = COMMAND_DONE_ERROR_RECOVERED; 10889 } 10890 10891 if (un->un_laststate >= ST_STATE_OPEN) { 10892 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 10893 "blank check\n"); 10894 pos->eof = ST_EOM; 10895 } 10896 if ((CDBP(pkt)->scc_cmd == SCMD_LOCATE) || 10897 (CDBP(pkt)->scc_cmd == SCMD_LOCATE_G4) || 10898 (CDBP(pkt)->scc_cmd == SCMD_SPACE) && 10899 (un->un_dp->options & ST_KNOWS_EOD)) { 10900 /* 10901 * we were doing a fast forward by skipping 10902 * multiple fmk at the time 10903 */ 10904 st_bioerror(bp, EIO); 10905 severity = SCSI_ERR_RECOVERED; 10906 rval = COMMAND_DONE; 10907 } 10908 st_set_pe_flag(un); 10909 goto check_keys; 10910 10911 case KEY_WRITE_PROTECT: 10912 if (st_wrongtapetype(un)) { 10913 un->un_status = SUN_KEY_WRONGMEDIA; 10914 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 10915 "wrong tape for writing- use DC6150 tape " 10916 "(or equivalent)\n"); 10917 severity = SCSI_ERR_UNKNOWN; 10918 } else { 10919 severity = SCSI_ERR_FATAL; 10920 } 10921 ST_DO_ERRSTATS(un, st_harderrs); 10922 rval = COMMAND_DONE_ERROR; 10923 st_bioerror(bp, EACCES); 10924 break; 10925 10926 case KEY_UNIT_ATTENTION: 10927 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 10928 "KEY_UNIT_ATTENTION : un_state = %d\n", un->un_state); 10929 10930 un->un_unit_attention_flags |= 1; 10931 /* 10932 * If we have detected a Bus Reset and the tape 10933 * drive has been reserved. 10934 */ 10935 if (ST_RQSENSE->es_add_code == 0x29) { 10936 rval = DEVICE_RESET; 10937 if ((un->un_rsvd_status & 10938 (ST_RESERVE | ST_APPLICATION_RESERVATIONS)) == 10939 ST_RESERVE) { 10940 un->un_rsvd_status |= ST_LOST_RESERVE; 10941 ST_DEBUG(ST_DEVINFO, st_label, CE_WARN, 10942 "st_decode_sense: Lost Reservation\n"); 10943 } 10944 } 10945 10946 /* 10947 * If this is a recovery command and retrable, retry. 10948 */ 10949 if (bp == un->un_recov_buf) { 10950 severity = SCSI_ERR_INFO; 10951 if (attrib->retriable && 10952 ri->pkt_retry_cnt++ < st_retry_count) { 10953 rval = QUE_COMMAND; 10954 } else { 10955 rval = COMMAND_DONE_ERROR; 10956 } 10957 break; /* Don't set position invalid */ 10958 } 10959 10960 /* 10961 * If ST_APPLICATION_RESERVATIONS is set, 10962 * If the asc/ascq indicates that the reservation 10963 * has been cleared just allow the write to continue 10964 * which would force a scsi 2 reserve. 10965 * If preempted that persistent reservation 10966 * the scsi 2 reserve would get a reservation conflict. 10967 */ 10968 if ((un->un_rsvd_status & 10969 ST_APPLICATION_RESERVATIONS) != 0) { 10970 /* 10971 * RESERVATIONS PREEMPTED 10972 * With MPxIO this could be a fail over? XXX 10973 */ 10974 if (ST_RQSENSE->es_add_code == 0x2a && 10975 ST_RQSENSE->es_qual_code == 0x03) { 10976 severity = SCSI_ERR_INFO; 10977 rval = COMMAND_DONE_ERROR; 10978 pos->pmode = invalid; 10979 break; 10980 /* 10981 * RESERVATIONS RELEASED 10982 */ 10983 } else if (ST_RQSENSE->es_add_code == 0x2a && 10984 ST_RQSENSE->es_qual_code == 0x04) { 10985 severity = SCSI_ERR_INFO; 10986 rval = COMMAND_DONE; 10987 break; 10988 } 10989 } 10990 10991 if (un->un_state <= ST_STATE_OPENING) { 10992 /* 10993 * Look, the tape isn't open yet, now determine 10994 * if the cause is a BUS RESET, Save the file 10995 * and Block positions for the callers to 10996 * recover from the loss of position. 10997 */ 10998 severity = SCSI_ERR_INFO; 10999 if ((pos->pmode != invalid) && 11000 (rval == DEVICE_RESET) && 11001 (un->un_restore_pos != 1)) { 11002 un->un_save_fileno = pos->fileno; 11003 un->un_save_blkno = pos->blkno; 11004 un->un_restore_pos = 1; 11005 } 11006 11007 if (attrib->retriable && 11008 ri->pkt_retry_cnt++ < st_retry_count) { 11009 rval = QUE_COMMAND; 11010 } else if (rval == DEVICE_RESET) { 11011 break; 11012 } else { 11013 rval = COMMAND_DONE_ERROR; 11014 } 11015 /* 11016 * Means it thinks the mode parameters have changed. 11017 * This is the result of a reset clearing settings or 11018 * another initiator changing what we set. 11019 */ 11020 } 11021 if (ST_RQSENSE->es_add_code == 0x2a) { 11022 if (ST_RQSENSE->es_qual_code == 0x1) { 11023 /* Error recovery will modeselect and retry. */ 11024 rval = DEVICE_TAMPER; 11025 severity = SCSI_ERR_INFO; 11026 break; /* don't set position invalid */ 11027 } 11028 if (ST_RQSENSE->es_qual_code == 0x0 || 11029 ST_RQSENSE->es_qual_code == 0x2 || 11030 ST_RQSENSE->es_qual_code == 0x3 || 11031 ST_RQSENSE->es_qual_code == 0x4 || 11032 ST_RQSENSE->es_qual_code == 0x5 || 11033 ST_RQSENSE->es_qual_code == 0x6 || 11034 ST_RQSENSE->es_qual_code == 0x7) { 11035 rval = DEVICE_TAMPER; 11036 severity = SCSI_ERR_INFO; 11037 } 11038 } else if (ST_RQSENSE->es_add_code == 0x28 && 11039 ((ST_RQSENSE->es_qual_code == 0x0) || 11040 ST_RQSENSE->es_qual_code == 0x5)) { 11041 /* 11042 * Not Ready to Ready change, Media may have changed. 11043 */ 11044 rval = DEVICE_TAMPER; 11045 severity = SCSI_ERR_RETRYABLE; 11046 } else { 11047 if (rval != DEVICE_RESET) { 11048 rval = COMMAND_DONE_ERROR; 11049 } else { 11050 /* 11051 * Returning DEVICE_RESET will call 11052 * error recovery. 11053 */ 11054 severity = SCSI_ERR_INFO; 11055 break; /* don't set position invalid */ 11056 } 11057 /* 11058 * Check if it is an Unexpected Unit Attention. 11059 * If state is >= ST_STATE_OPEN, we have 11060 * already done the initialization . 11061 * In this case it is Fatal Error 11062 * since no further reading/writing 11063 * can be done with fileno set to < 0. 11064 */ 11065 if (un->un_state >= ST_STATE_OPEN) { 11066 ST_DO_ERRSTATS(un, st_harderrs); 11067 severity = SCSI_ERR_FATAL; 11068 } else { 11069 severity = SCSI_ERR_INFO; 11070 } 11071 } 11072 11073 pos->pmode = invalid; 11074 11075 break; 11076 11077 case KEY_NOT_READY: 11078 /* 11079 * If in process of getting ready retry. 11080 */ 11081 if (sensep->es_add_code == 0x04 && 11082 sensep->es_qual_code == 0x01 && 11083 ri->pkt_retry_cnt++ < st_retry_count) { 11084 rval = QUE_COMMAND; 11085 severity = SCSI_ERR_INFO; 11086 } else { 11087 /* give up */ 11088 rval = COMMAND_DONE_ERROR; 11089 severity = SCSI_ERR_FATAL; 11090 } 11091 11092 /* 11093 * If this was an error and after device opened 11094 * do error stats. 11095 */ 11096 if (rval == COMMAND_DONE_ERROR && 11097 un->un_state > ST_STATE_OPENING) { 11098 ST_DO_ERRSTATS(un, st_harderrs); 11099 } 11100 11101 if (ST_RQSENSE->es_add_code == 0x3a) { 11102 if (st_error_level >= SCSI_ERR_FATAL) 11103 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 11104 "Tape not inserted in drive\n"); 11105 un->un_mediastate = MTIO_EJECTED; 11106 cv_broadcast(&un->un_state_cv); 11107 } 11108 if ((un->un_dp->options & ST_EJECT_ON_CHANGER_FAILURE) && 11109 (rval != QUE_COMMAND)) 11110 un->un_eject_tape_on_failure = st_check_asc_ascq(un); 11111 break; 11112 11113 case KEY_ABORTED_COMMAND: 11114 /* XXX Do drives return this when they see a lost light? */ 11115 /* Testing would say yes */ 11116 11117 if (ri->pkt_retry_cnt++ < st_retry_count) { 11118 rval = ATTEMPT_RETRY; 11119 severity = SCSI_ERR_RETRYABLE; 11120 goto check_keys; 11121 } 11122 /* 11123 * Probably a parity error... 11124 * if we retry here then this may cause data to be 11125 * written twice or data skipped during reading 11126 */ 11127 ST_DO_ERRSTATS(un, st_harderrs); 11128 severity = SCSI_ERR_FATAL; 11129 rval = COMMAND_DONE_ERROR; 11130 goto check_keys; 11131 11132 default: 11133 /* 11134 * Undecoded sense key. Try retries and hope 11135 * that will fix the problem. Otherwise, we're 11136 * dead. 11137 */ 11138 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 11139 "Unhandled Sense Key '%s'\n", 11140 sense_keys[un->un_status]); 11141 ST_DO_ERRSTATS(un, st_harderrs); 11142 severity = SCSI_ERR_FATAL; 11143 rval = COMMAND_DONE_ERROR; 11144 goto check_keys; 11145 } 11146 11147 if ((!(pkt->pkt_flags & FLAG_SILENT) && 11148 un->un_state >= ST_STATE_OPEN) && (DEBUGGING || 11149 (un->un_laststate > ST_STATE_OPENING) && 11150 (severity >= st_error_level))) { 11151 11152 scsi_errmsg(ST_SCSI_DEVP, pkt, st_label, severity, 11153 pos->lgclblkno, un->un_err_pos.lgclblkno, 11154 scsi_cmds, sensep); 11155 if (sensep->es_filmk) { 11156 scsi_log(ST_DEVINFO, st_label, CE_CONT, 11157 "File Mark Detected\n"); 11158 } 11159 if (sensep->es_eom) { 11160 scsi_log(ST_DEVINFO, st_label, CE_CONT, 11161 "End-of-Media Detected\n"); 11162 } 11163 if (sensep->es_ili) { 11164 scsi_log(ST_DEVINFO, st_label, CE_CONT, 11165 "Incorrect Length Indicator Set\n"); 11166 } 11167 } 11168 get_error = geterror(bp); 11169 if (((rval == COMMAND_DONE_ERROR) || 11170 (rval == COMMAND_DONE_ERROR_RECOVERED)) && 11171 ((get_error == EIO) || (get_error == 0))) { 11172 un->un_rqs_state |= (ST_RQS_ERROR | ST_RQS_VALID); 11173 bcopy(ST_RQSENSE, un->un_uscsi_rqs_buf, SENSE_LENGTH); 11174 if (un->un_rqs_state & ST_RQS_READ) { 11175 un->un_rqs_state &= ~(ST_RQS_READ); 11176 } else { 11177 un->un_rqs_state |= ST_RQS_OVR; 11178 } 11179 } 11180 11181 return (rval); 11182 } 11183 11184 11185 static int 11186 st_handle_intr_retry_lcmd(struct scsi_tape *un, struct buf *bp) 11187 { 11188 int status = TRAN_ACCEPT; 11189 pkt_info *pktinfo = BP_PKT(bp)->pkt_private; 11190 11191 mutex_enter(ST_MUTEX); 11192 11193 ST_FUNC(ST_DEVINFO, st_handle_intr_retry_lcmd); 11194 11195 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 11196 "st_handle_intr_rtr_lcmd(), un = 0x%p\n", (void *)un); 11197 11198 /* 11199 * Check to see if we hit the retry timeout. We check to make sure 11200 * this is the first one on the runq and make sure we have not 11201 * queued up any more, so this one has to be the last on the list 11202 * also. If it is not, we have to fail. If it is not the first, but 11203 * is the last we are in trouble anyway, as we are in the interrupt 11204 * context here. 11205 */ 11206 if ((pktinfo->pkt_retry_cnt > st_retry_count) || 11207 ((un->un_runqf != bp) && (un->un_runql != bp))) { 11208 goto exit; 11209 } 11210 11211 if (un->un_throttle) { 11212 un->un_last_throttle = un->un_throttle; 11213 un->un_throttle = 0; 11214 } 11215 11216 /* 11217 * Here we know : bp is the first and last one on the runq 11218 * it is not necessary to put it back on the head of the 11219 * waitq and then move from waitq to runq. Save this queuing 11220 * and call scsi_transport. 11221 */ 11222 ST_CDB(ST_DEVINFO, "Retry lcmd CDB", (char *)BP_PKT(bp)->pkt_cdbp); 11223 11224 status = st_transport(un, BP_PKT(bp)); 11225 11226 if (status == TRAN_ACCEPT) { 11227 if (un->un_last_throttle) { 11228 un->un_throttle = un->un_last_throttle; 11229 } 11230 mutex_exit(ST_MUTEX); 11231 11232 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 11233 "restart transport \n"); 11234 return (0); 11235 } 11236 11237 ST_DO_KSTATS(bp, kstat_runq_back_to_waitq); 11238 mutex_exit(ST_MUTEX); 11239 11240 if (status == TRAN_BUSY) { 11241 if (st_handle_intr_busy(un, bp, ST_TRAN_BUSY_TIMEOUT) == 0) { 11242 return (0); 11243 } 11244 } 11245 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 11246 "restart transport rejected\n"); 11247 mutex_enter(ST_MUTEX); 11248 ST_DO_ERRSTATS(un, st_transerrs); 11249 if (un->un_last_throttle) { 11250 un->un_throttle = un->un_last_throttle; 11251 } 11252 exit: 11253 mutex_exit(ST_MUTEX); 11254 return (-1); 11255 } 11256 11257 static int 11258 st_wrongtapetype(struct scsi_tape *un) 11259 { 11260 11261 ST_FUNC(ST_DEVINFO, st_wrongtapetype); 11262 11263 ASSERT(mutex_owned(ST_MUTEX)); 11264 11265 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, "st_wrongtapetype()\n"); 11266 11267 /* 11268 * Hack to handle 600A, 600XTD, 6150 && 660 vs. 300XL tapes... 11269 */ 11270 if (un->un_dp && (un->un_dp->options & ST_QIC) && un->un_mspl) { 11271 switch (un->un_dp->type) { 11272 case ST_TYPE_WANGTEK: 11273 case ST_TYPE_ARCHIVE: 11274 /* 11275 * If this really worked, we could go off of 11276 * the density codes set in the modesense 11277 * page. For this drive, 0x10 == QIC-120, 11278 * 0xf == QIC-150, and 0x5 should be for 11279 * both QIC-24 and, maybe, QIC-11. However, 11280 * the h/w doesn't do what the manual says 11281 * that it should, so we'll key off of 11282 * getting a WRITE PROTECT error AND wp *not* 11283 * set in the mode sense information. 11284 */ 11285 /* 11286 * XXX but we already know that status is 11287 * write protect, so don't check it again. 11288 */ 11289 11290 if (un->un_status == KEY_WRITE_PROTECT && 11291 un->un_mspl->wp == 0) { 11292 return (1); 11293 } 11294 break; 11295 default: 11296 break; 11297 } 11298 } 11299 return (0); 11300 } 11301 11302 static errstate 11303 st_check_error(struct scsi_tape *un, struct scsi_pkt *pkt) 11304 { 11305 errstate action; 11306 recov_info *rcvi = pkt->pkt_private; 11307 buf_t *bp = rcvi->cmd_bp; 11308 struct scsi_arq_status *stat = (struct scsi_arq_status *)pkt->pkt_scbp; 11309 11310 ST_FUNC(ST_DEVINFO, st_check_error); 11311 11312 ASSERT(mutex_owned(ST_MUTEX)); 11313 11314 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, "st_check_error()\n"); 11315 11316 switch (SCBP_C(pkt)) { 11317 case STATUS_RESERVATION_CONFLICT: 11318 /* 11319 * Command recovery is enabled, not just opening, 11320 * we had the drive reserved and we thing its ours. 11321 * Call recovery to attempt to take it back. 11322 */ 11323 if ((rcvi->privatelen == sizeof (recov_info)) && 11324 (bp != un->un_recov_buf) && 11325 (un->un_state > ST_STATE_OPEN_PENDING_IO) && 11326 ((un->un_rsvd_status & (ST_RESERVE | 11327 ST_APPLICATION_RESERVATIONS)) != 0)) { 11328 action = ATTEMPT_RETRY; 11329 un->un_rsvd_status |= ST_LOST_RESERVE; 11330 } else { 11331 action = COMMAND_DONE_EACCES; 11332 un->un_rsvd_status |= ST_RESERVATION_CONFLICT; 11333 } 11334 break; 11335 11336 case STATUS_BUSY: 11337 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, "unit busy\n"); 11338 if (rcvi->privatelen == sizeof (recov_info) && 11339 un->un_multipath && (pkt->pkt_state == (STATE_GOT_BUS | 11340 STATE_GOT_TARGET | STATE_SENT_CMD | STATE_GOT_STATUS))) { 11341 /* 11342 * Status returned by scsi_vhci indicating path 11343 * has failed over. 11344 */ 11345 action = PATH_FAILED; 11346 break; 11347 } 11348 /* FALLTHRU */ 11349 case STATUS_QFULL: 11350 if (rcvi->privatelen == sizeof (recov_info)) { 11351 /* 11352 * If recovery is inabled use it instead of 11353 * blind reties. 11354 */ 11355 action = ATTEMPT_RETRY; 11356 } else if (rcvi->pkt_retry_cnt++ < st_retry_count) { 11357 action = QUE_BUSY_COMMAND; 11358 } else if ((un->un_rsvd_status & 11359 (ST_RESERVE | ST_APPLICATION_RESERVATIONS)) == 0) { 11360 /* 11361 * If this is a command done before reserve is done 11362 * don't reset. 11363 */ 11364 action = COMMAND_DONE_ERROR; 11365 } else { 11366 ST_DEBUG2(ST_DEVINFO, st_label, CE_WARN, 11367 "unit busy too long\n"); 11368 (void) st_reset(un, RESET_ALL); 11369 action = COMMAND_DONE_ERROR; 11370 } 11371 break; 11372 11373 case STATUS_CHECK: 11374 case STATUS_TERMINATED: 11375 /* 11376 * we should only get here if the auto rqsense failed 11377 * thru a uscsi cmd without autorequest sense 11378 * so we just try again 11379 */ 11380 if (un->un_arq_enabled && 11381 stat->sts_rqpkt_reason == CMD_CMPLT && 11382 (stat->sts_rqpkt_state & (STATE_GOT_BUS | 11383 STATE_GOT_TARGET | STATE_SENT_CMD | STATE_GOT_STATUS)) == 11384 (STATE_GOT_BUS | STATE_GOT_TARGET | STATE_SENT_CMD | 11385 STATE_GOT_STATUS)) { 11386 11387 ST_DEBUG2(ST_DEVINFO, st_label, CE_WARN, 11388 "Really got sense data\n"); 11389 action = st_decode_sense(un, bp, MAX_SENSE_LENGTH - 11390 pkt->pkt_resid, stat, &un->un_pos); 11391 } else { 11392 ST_DEBUG2(ST_DEVINFO, st_label, CE_WARN, 11393 "Trying to queue sense command\n"); 11394 action = QUE_SENSE; 11395 } 11396 break; 11397 11398 case STATUS_TASK_ABORT: 11399 /* 11400 * This is an aborted task. This can be a reset on the other 11401 * port of a multiport drive. Lets try and recover it. 11402 */ 11403 action = DEVICE_RESET; 11404 break; 11405 11406 default: 11407 action = COMMAND_DONE; 11408 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 11409 "Unexpected scsi status byte 0x%x\n", SCBP_C(pkt)); 11410 } 11411 return (action); 11412 } 11413 11414 static void 11415 st_calc_bnum(struct scsi_tape *un, struct buf *bp, struct scsi_pkt *pkt) 11416 { 11417 int nblks; 11418 int nfiles; 11419 long count; 11420 recov_info *ri = pkt->pkt_private; 11421 cmd_attribute const *attrib; 11422 11423 ST_FUNC(ST_DEVINFO, st_calc_bnum); 11424 11425 ASSERT(mutex_owned(ST_MUTEX)); 11426 11427 if (ri->privatelen == sizeof (recov_info)) { 11428 attrib = ri->cmd_attrib; 11429 ASSERT(attrib->recov_pos_type == POS_EXPECTED); 11430 ASSERT(attrib->chg_tape_pos); 11431 } else { 11432 ri = NULL; 11433 attrib = st_lookup_cmd_attribute(pkt->pkt_cdbp[0]); 11434 } 11435 11436 count = bp->b_bcount - bp->b_resid; 11437 11438 /* Command reads or writes data */ 11439 if (attrib->transfers_data != TRAN_NONE) { 11440 if (count == 0) { 11441 /* failed writes should not make it here */ 11442 ASSERT(attrib->transfers_data == TRAN_READ); 11443 nblks = 0; 11444 nfiles = 1; 11445 } else if (un->un_bsize == 0) { 11446 /* 11447 * If variable block mode. 11448 * Fixed bit in CBD should be zero. 11449 */ 11450 ASSERT((pkt->pkt_cdbp[1] & 1) == 0); 11451 nblks = 1; 11452 un->un_kbytes_xferred += (count / ONE_K); 11453 nfiles = 0; 11454 } else { 11455 /* 11456 * If fixed block mode. 11457 * Fixed bit in CBD should be one. 11458 */ 11459 ASSERT((pkt->pkt_cdbp[1] & 1) == 1); 11460 nblks = (count / un->un_bsize); 11461 un->un_kbytes_xferred += (nblks * un->un_bsize) / ONE_K; 11462 nfiles = 0; 11463 } 11464 /* 11465 * So its possable to read some blocks and hit a filemark. 11466 * Example reading in fixed block mode where more then one 11467 * block at a time is requested. In this case because the 11468 * filemark is hit something less then the requesed number 11469 * of blocks is read. 11470 */ 11471 if (un->un_pos.eof == ST_EOF_PENDING && bp->b_resid) { 11472 nfiles = 1; 11473 } 11474 } else { 11475 nblks = 0; 11476 nfiles = count; 11477 } 11478 11479 /* 11480 * If some command failed after this one started and it seems 11481 * to have finshed without error count the position. 11482 */ 11483 if (un->un_persistence && un->un_persist_errors) { 11484 ASSERT(un->un_pos.pmode != invalid); 11485 } 11486 11487 if (attrib->chg_tape_direction == DIR_FORW) { 11488 un->un_pos.blkno += nblks; 11489 un->un_pos.lgclblkno += nblks; 11490 un->un_pos.lgclblkno += nfiles; 11491 } else if (attrib->chg_tape_direction == DIR_REVC) { 11492 un->un_pos.blkno -= nblks; 11493 un->un_pos.lgclblkno -= nblks; 11494 un->un_pos.lgclblkno -= nfiles; 11495 } else { 11496 ASSERT(0); 11497 } 11498 11499 /* recovery disabled */ 11500 if (ri == NULL) { 11501 un->un_running.pmode = invalid; 11502 return; 11503 } 11504 11505 /* 11506 * If we didn't just read a filemark. 11507 */ 11508 if (un->un_pos.eof != ST_EOF_PENDING) { 11509 ASSERT(nblks != 0 && nfiles == 0); 11510 /* 11511 * If Previously calulated expected position does not match 11512 * debug the expected position. 11513 */ 11514 if ((ri->pos.pmode != invalid) && nblks && 11515 ((un->un_pos.blkno != ri->pos.blkno) || 11516 (un->un_pos.lgclblkno != ri->pos.lgclblkno))) { 11517 #ifdef STDEBUG 11518 st_print_position(ST_DEVINFO, st_label, CE_NOTE, 11519 "Expected", &ri->pos); 11520 st_print_position(ST_DEVINFO, st_label, CE_NOTE, 11521 "But Got", &un->un_pos); 11522 #endif 11523 un->un_running.pmode = invalid; 11524 } 11525 } else { 11526 ASSERT(nfiles != 0); 11527 if (un->un_running.pmode != invalid) { 11528 /* 11529 * blkno and lgclblkno already counted in 11530 * st_add_recovery_info_to_pkt(). Since a block was not 11531 * read and a filemark was. 11532 */ 11533 if (attrib->chg_tape_direction == DIR_FORW) { 11534 un->un_running.fileno++; 11535 un->un_running.blkno = 0; 11536 } else if (attrib->chg_tape_direction == DIR_REVC) { 11537 un->un_running.fileno--; 11538 un->un_running.blkno = LASTBLK; 11539 } 11540 } 11541 } 11542 } 11543 11544 static void 11545 st_set_state(struct scsi_tape *un, struct buf *bp) 11546 { 11547 struct scsi_pkt *sp = BP_PKT(bp); 11548 struct uscsi_cmd *ucmd; 11549 11550 ST_FUNC(ST_DEVINFO, st_set_state); 11551 11552 ASSERT(mutex_owned(ST_MUTEX)); 11553 ASSERT(bp != un->un_recov_buf); 11554 11555 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 11556 "st_set_state(): eof=%x fmneeded=%x pkt_resid=0x%lx (%ld)\n", 11557 un->un_pos.eof, un->un_fmneeded, sp->pkt_resid, sp->pkt_resid); 11558 11559 if (bp != un->un_sbufp) { 11560 #ifdef STDEBUG 11561 if (DEBUGGING && sp->pkt_resid) { 11562 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 11563 "pkt_resid %ld bcount %ld\n", 11564 sp->pkt_resid, bp->b_bcount); 11565 } 11566 #endif 11567 bp->b_resid = sp->pkt_resid; 11568 if (geterror(bp) != EIO) { 11569 st_calc_bnum(un, bp, sp); 11570 } 11571 if (bp->b_flags & B_READ) { 11572 un->un_lastop = ST_OP_READ; 11573 un->un_fmneeded = 0; 11574 } else { 11575 un->un_lastop = ST_OP_WRITE; 11576 if (un->un_dp->options & ST_REEL) { 11577 un->un_fmneeded = 2; 11578 } else { 11579 un->un_fmneeded = 1; 11580 } 11581 } 11582 /* 11583 * all is honky dory at this point, so let's 11584 * readjust the throttle, to increase speed, if we 11585 * have not throttled down. 11586 */ 11587 if (un->un_throttle) { 11588 un->un_throttle = un->un_max_throttle; 11589 } 11590 } else { 11591 optype new_lastop = ST_OP_NIL; 11592 uchar_t cmd = (uchar_t)(intptr_t)bp->b_forw; 11593 11594 switch (cmd) { 11595 case SCMD_WRITE: 11596 case SCMD_WRITE_G4: 11597 bp->b_resid = sp->pkt_resid; 11598 new_lastop = ST_OP_WRITE; 11599 if (geterror(bp) == EIO) { 11600 break; 11601 } 11602 st_calc_bnum(un, bp, sp); 11603 if (un->un_dp->options & ST_REEL) { 11604 un->un_fmneeded = 2; 11605 } else { 11606 un->un_fmneeded = 1; 11607 } 11608 break; 11609 case SCMD_READ: 11610 case SCMD_READ_G4: 11611 bp->b_resid = sp->pkt_resid; 11612 new_lastop = ST_OP_READ; 11613 if (geterror(bp) == EIO) { 11614 break; 11615 } 11616 st_calc_bnum(un, bp, sp); 11617 un->un_fmneeded = 0; 11618 break; 11619 case SCMD_WRITE_FILE_MARK_G4: 11620 case SCMD_WRITE_FILE_MARK: 11621 { 11622 int fmdone; 11623 11624 if (un->un_pos.eof != ST_EOM) { 11625 un->un_pos.eof = ST_NO_EOF; 11626 } 11627 fmdone = (bp->b_bcount - bp->b_resid); 11628 if (fmdone > 0) { 11629 un->un_lastop = new_lastop = ST_OP_WEOF; 11630 un->un_pos.lgclblkno += fmdone; 11631 un->un_pos.fileno += fmdone; 11632 un->un_pos.blkno = 0; 11633 } else { 11634 new_lastop = ST_OP_CTL; 11635 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 11636 "Flushed buffer\n"); 11637 } 11638 if (fmdone > un->un_fmneeded) { 11639 un->un_fmneeded = 0; 11640 } else { 11641 un->un_fmneeded -= fmdone; 11642 } 11643 break; 11644 } 11645 case SCMD_REWIND: 11646 un->un_pos.eof = ST_NO_EOF; 11647 un->un_pos.fileno = 0; 11648 un->un_pos.blkno = 0; 11649 un->un_pos.lgclblkno = 0; 11650 if (un->un_pos.pmode != legacy) 11651 un->un_pos.pmode = legacy; 11652 new_lastop = ST_OP_CTL; 11653 un->un_restore_pos = 0; 11654 break; 11655 11656 case SCMD_SPACE: 11657 case SCMD_SPACE_G4: 11658 { 11659 int64_t count; 11660 int64_t resid; 11661 int64_t done; 11662 cmd_attribute const *attrib; 11663 recov_info *ri = sp->pkt_private; 11664 11665 if (ri->privatelen == sizeof (recov_info)) { 11666 attrib = ri->cmd_attrib; 11667 } else { 11668 attrib = 11669 st_lookup_cmd_attribute(sp->pkt_cdbp[0]); 11670 } 11671 11672 resid = (int64_t)SPACE_CNT(bp->b_resid); 11673 count = (int64_t)attrib->get_cnt(sp->pkt_cdbp); 11674 11675 if (count >= 0) { 11676 done = (count - resid); 11677 } else { 11678 done = ((-count) - resid); 11679 } 11680 if (done > 0) { 11681 un->un_lastop = new_lastop = ST_OP_CTL; 11682 } else { 11683 new_lastop = ST_OP_CTL; 11684 } 11685 11686 ST_SPAC(ST_DEVINFO, st_label, CE_WARN, 11687 "space cmd: cdb[1] = %s\n" 11688 "space data: = 0x%lx\n" 11689 "space count: = %"PRId64"\n" 11690 "space resid: = %"PRId64"\n" 11691 "spaces done: = %"PRId64"\n" 11692 "fileno before = %d\n" 11693 "blkno before = %d\n", 11694 space_strs[sp->pkt_cdbp[1] & 7], 11695 bp->b_bcount, 11696 count, resid, done, 11697 un->un_pos.fileno, un->un_pos.blkno); 11698 11699 switch (sp->pkt_cdbp[1]) { 11700 case SPACE_TYPE(SP_FLM): 11701 /* Space file forward */ 11702 if (count >= 0) { 11703 if (un->un_pos.eof <= ST_EOF) { 11704 un->un_pos.eof = ST_NO_EOF; 11705 } 11706 un->un_pos.fileno += done; 11707 un->un_pos.blkno = 0; 11708 break; 11709 } 11710 /* Space file backward */ 11711 if (done > un->un_pos.fileno) { 11712 un->un_pos.fileno = 0; 11713 un->un_pos.blkno = 0; 11714 } else { 11715 un->un_pos.fileno -= done; 11716 un->un_pos.blkno = LASTBLK; 11717 un->un_running.pmode = invalid; 11718 } 11719 break; 11720 case SPACE_TYPE(SP_BLK): 11721 /* Space block forward */ 11722 if (count >= 0) { 11723 un->un_pos.blkno += done; 11724 break; 11725 } 11726 /* Space block backward */ 11727 if (un->un_pos.eof >= ST_EOF_PENDING) { 11728 /* 11729 * we stepped back into 11730 * a previous file; we are not 11731 * making an effort to pretend that 11732 * we are still in the current file 11733 * ie. logical == physical position 11734 * and leave it to st_ioctl to correct 11735 */ 11736 if (done > un->un_pos.blkno) { 11737 un->un_pos.blkno = 0; 11738 } else { 11739 un->un_pos.fileno--; 11740 un->un_pos.blkno = LASTBLK; 11741 un->un_running.pmode = invalid; 11742 } 11743 } else { 11744 un->un_pos.blkno -= done; 11745 } 11746 break; 11747 case SPACE_TYPE(SP_SQFLM): 11748 un->un_pos.pmode = logical; 11749 un->un_pos.blkno = 0; 11750 un->un_lastop = new_lastop = ST_OP_CTL; 11751 break; 11752 case SPACE_TYPE(SP_EOD): 11753 un->un_pos.pmode = logical; 11754 un->un_pos.eof = ST_EOM; 11755 un->un_status = KEY_BLANK_CHECK; 11756 break; 11757 default: 11758 un->un_pos.pmode = invalid; 11759 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 11760 "Unsupported space cmd: %s\n", 11761 space_strs[sp->pkt_cdbp[1] & 7]); 11762 11763 un->un_lastop = new_lastop = ST_OP_CTL; 11764 } 11765 11766 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 11767 "after_space rs %"PRId64" fil %d blk %d\n", 11768 resid, un->un_pos.fileno, un->un_pos.blkno); 11769 11770 break; 11771 } 11772 case SCMD_LOAD: 11773 if ((bp->b_bcount & (LD_LOAD | LD_EOT)) == LD_LOAD) { 11774 un->un_pos.fileno = 0; 11775 if (un->un_pos.pmode != legacy) 11776 un->un_pos.pmode = legacy; 11777 } else { 11778 un->un_state = ST_STATE_OFFLINE; 11779 un->un_pos.pmode = invalid; 11780 11781 } 11782 /* 11783 * If we are loading or unloading we expect the media id 11784 * to change. Lets make it unknown. 11785 */ 11786 if (un->un_media_id != bogusID && un->un_media_id_len) { 11787 kmem_free(un->un_media_id, un->un_media_id_len); 11788 un->un_media_id = NULL; 11789 un->un_media_id_len = 0; 11790 } 11791 un->un_density_known = 0; 11792 un->un_pos.eof = ST_NO_EOF; 11793 un->un_pos.blkno = 0; 11794 un->un_lastop = new_lastop = ST_OP_CTL; 11795 break; 11796 case SCMD_ERASE: 11797 un->un_pos.eof = ST_NO_EOF; 11798 un->un_pos.blkno = 0; 11799 un->un_pos.fileno = 0; 11800 un->un_pos.lgclblkno = 0; 11801 if (un->un_pos.pmode != legacy) 11802 un->un_pos.pmode = legacy; 11803 new_lastop = ST_OP_CTL; 11804 break; 11805 case SCMD_RESERVE: 11806 un->un_rsvd_status |= ST_RESERVE; 11807 un->un_rsvd_status &= 11808 ~(ST_RELEASE | ST_LOST_RESERVE | 11809 ST_RESERVATION_CONFLICT | ST_INITIATED_RESET); 11810 new_lastop = ST_OP_CTL; 11811 break; 11812 case SCMD_RELEASE: 11813 un->un_rsvd_status |= ST_RELEASE; 11814 un->un_rsvd_status &= 11815 ~(ST_RESERVE | ST_LOST_RESERVE | 11816 ST_RESERVATION_CONFLICT | ST_INITIATED_RESET); 11817 new_lastop = ST_OP_CTL; 11818 break; 11819 case SCMD_PERSISTENT_RESERVE_IN: 11820 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 11821 "PGR_IN command\n"); 11822 new_lastop = ST_OP_CTL; 11823 break; 11824 case SCMD_PERSISTENT_RESERVE_OUT: 11825 switch (sp->pkt_cdbp[1] & ST_SA_MASK) { 11826 case ST_SA_SCSI3_RESERVE: 11827 case ST_SA_SCSI3_PREEMPT: 11828 case ST_SA_SCSI3_PREEMPTANDABORT: 11829 un->un_rsvd_status |= 11830 (ST_APPLICATION_RESERVATIONS | ST_RESERVE); 11831 un->un_rsvd_status &= ~(ST_RELEASE | 11832 ST_LOST_RESERVE | ST_RESERVATION_CONFLICT | 11833 ST_INITIATED_RESET); 11834 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 11835 "PGR Reserve and set: entering" 11836 " ST_APPLICATION_RESERVATIONS mode"); 11837 break; 11838 case ST_SA_SCSI3_REGISTER: 11839 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 11840 "PGR Reserve register key"); 11841 un->un_rsvd_status |= ST_INIT_RESERVE; 11842 break; 11843 case ST_SA_SCSI3_CLEAR: 11844 un->un_rsvd_status &= ~ST_INIT_RESERVE; 11845 /* FALLTHROUGH */ 11846 case ST_SA_SCSI3_RELEASE: 11847 un->un_rsvd_status &= 11848 ~(ST_APPLICATION_RESERVATIONS | ST_RESERVE | 11849 ST_LOST_RESERVE | ST_RESERVATION_CONFLICT | 11850 ST_INITIATED_RESET); 11851 un->un_rsvd_status |= ST_RELEASE; 11852 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 11853 "PGR Release and reset: exiting" 11854 " ST_APPLICATION_RESERVATIONS mode"); 11855 break; 11856 } 11857 new_lastop = ST_OP_CTL; 11858 break; 11859 case SCMD_TEST_UNIT_READY: 11860 case SCMD_READ_BLKLIM: 11861 case SCMD_REQUEST_SENSE: 11862 case SCMD_INQUIRY: 11863 case SCMD_RECOVER_BUF: 11864 case SCMD_MODE_SELECT: 11865 case SCMD_MODE_SENSE: 11866 case SCMD_DOORLOCK: 11867 case SCMD_READ_BUFFER: 11868 case SCMD_REPORT_DENSITIES: 11869 case SCMD_LOG_SELECT_G1: 11870 case SCMD_LOG_SENSE_G1: 11871 case SCMD_REPORT_LUNS: 11872 case SCMD_READ_ATTRIBUTE: 11873 case SCMD_WRITE_ATTRIBUTE: 11874 case SCMD_SVC_ACTION_IN_G5: 11875 new_lastop = ST_OP_CTL; 11876 break; 11877 case SCMD_READ_POSITION: 11878 new_lastop = ST_OP_CTL; 11879 /* 11880 * Only if the buf used was un_sbufp. 11881 * Among other things the prevents read positions used 11882 * as part of error recovery from messing up our 11883 * current position as they will use un_recov_buf. 11884 */ 11885 if (USCSI_CMD(bp)) { 11886 (void) st_get_read_pos(un, bp); 11887 } 11888 break; 11889 case SCMD_LOCATE: 11890 case SCMD_LOCATE_G4: 11891 /* Locate makes position mode no longer legacy */ 11892 un->un_lastop = new_lastop = ST_OP_CTL; 11893 break; 11894 case SCMD_MAINTENANCE_IN: 11895 switch (sp->pkt_cdbp[1]) { 11896 case SSVC_ACTION_GET_SUPPORTED_OPERATIONS: 11897 case SSVC_ACTION_SET_TARGET_PORT_GROUPS: 11898 new_lastop = ST_OP_CTL; 11899 break; 11900 } 11901 if (new_lastop != ST_OP_NIL) { 11902 break; 11903 } 11904 default: 11905 /* 11906 * Unknown command, If was USCSI and USCSI_SILENT 11907 * flag was not set, set position to unknown. 11908 */ 11909 if ((((ucmd = BP_UCMD(bp)) != NULL) && 11910 (ucmd->uscsi_flags & USCSI_SILENT) == 0)) { 11911 ST_DEBUG2(ST_DEVINFO, st_label, CE_WARN, 11912 "unknown cmd 0x%X caused loss of state\n", 11913 cmd); 11914 } else { 11915 /* 11916 * keep the old agreement to allow unknown 11917 * commands with the USCSI_SILENT set. 11918 * This prevents ASSERT below. 11919 */ 11920 new_lastop = ST_OP_CTL; 11921 break; 11922 } 11923 /* FALLTHROUGH */ 11924 case SCMD_WRITE_BUFFER: /* Writes new firmware to device */ 11925 un->un_pos.pmode = invalid; 11926 un->un_lastop = new_lastop = ST_OP_CTL; 11927 break; 11928 } 11929 11930 /* new_lastop should have been changed */ 11931 ASSERT(new_lastop != ST_OP_NIL); 11932 11933 /* If un_lastop should copy new_lastop */ 11934 if (((un->un_lastop == ST_OP_WRITE) || 11935 (un->un_lastop == ST_OP_WEOF)) && 11936 new_lastop != ST_OP_CTL) { 11937 un->un_lastop = new_lastop; 11938 } 11939 } 11940 11941 /* 11942 * In the st driver we have a logical and physical file position. 11943 * Under BSD behavior, when you get a zero read, the logical position 11944 * is before the filemark but after the last record of the file. 11945 * The physical position is after the filemark. MTIOCGET should always 11946 * return the logical file position. 11947 * 11948 * The next read gives a silent skip to the next file. 11949 * Under SVR4, the logical file position remains before the filemark 11950 * until the file is closed or a space operation is performed. 11951 * Hence set err_resid and err_file before changing fileno if case 11952 * BSD Behaviour. 11953 */ 11954 un->un_err_resid = bp->b_resid; 11955 COPY_POS(&un->un_err_pos, &un->un_pos); 11956 11957 11958 /* 11959 * If we've seen a filemark via the last read operation 11960 * advance the file counter, but mark things such that 11961 * the next read operation gets a zero count. We have 11962 * to put this here to handle the case of sitting right 11963 * at the end of a tape file having seen the file mark, 11964 * but the tape is closed and then re-opened without 11965 * any further i/o. That is, the position information 11966 * must be updated before a close. 11967 */ 11968 11969 if (un->un_lastop == ST_OP_READ && un->un_pos.eof == ST_EOF_PENDING) { 11970 /* 11971 * If we're a 1/2" tape, and we get a filemark 11972 * right on block 0, *AND* we were not in the 11973 * first file on the tape, and we've hit logical EOM. 11974 * We'll mark the state so that later we do the 11975 * right thing (in st_close(), st_strategy() or 11976 * st_ioctl()). 11977 * 11978 */ 11979 if ((un->un_dp->options & ST_REEL) && 11980 !(un->un_dp->options & ST_READ_IGNORE_EOFS) && 11981 un->un_pos.blkno == 0 && un->un_pos.fileno > 0) { 11982 un->un_pos.eof = ST_EOT_PENDING; 11983 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 11984 "eot pending\n"); 11985 un->un_pos.fileno++; 11986 un->un_pos.blkno = 0; 11987 } else if (BSD_BEHAVIOR) { 11988 /* 11989 * If the read of the filemark was a side effect 11990 * of reading some blocks (i.e., data was actually 11991 * read), then the EOF mark is pending and the 11992 * bump into the next file awaits the next read 11993 * operation (which will return a zero count), or 11994 * a close or a space operation, else the bump 11995 * into the next file occurs now. 11996 */ 11997 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 11998 "resid=%lx, bcount=%lx\n", 11999 bp->b_resid, bp->b_bcount); 12000 12001 if (bp->b_resid != bp->b_bcount) { 12002 un->un_pos.eof = ST_EOF; 12003 } else { 12004 un->un_silent_skip = 1; 12005 un->un_pos.eof = ST_NO_EOF; 12006 un->un_pos.fileno++; 12007 un->un_pos.lgclblkno++; 12008 un->un_save_blkno = un->un_pos.blkno; 12009 un->un_pos.blkno = 0; 12010 } 12011 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 12012 "eof of file %d, eof=%d\n", 12013 un->un_pos.fileno, un->un_pos.eof); 12014 } else if (SVR4_BEHAVIOR) { 12015 /* 12016 * If the read of the filemark was a side effect 12017 * of reading some blocks (i.e., data was actually 12018 * read), then the next read should return 0 12019 */ 12020 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 12021 "resid=%lx, bcount=%lx\n", 12022 bp->b_resid, bp->b_bcount); 12023 if (bp->b_resid == bp->b_bcount) { 12024 un->un_pos.eof = ST_EOF; 12025 } 12026 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 12027 "eof of file=%d, eof=%d\n", 12028 un->un_pos.fileno, un->un_pos.eof); 12029 } 12030 } 12031 } 12032 12033 /* 12034 * set the correct un_errno, to take corner cases into consideration 12035 */ 12036 static void 12037 st_set_pe_errno(struct scsi_tape *un) 12038 { 12039 ST_FUNC(ST_DEVINFO, st_set_pe_errno); 12040 12041 ASSERT(mutex_owned(ST_MUTEX)); 12042 12043 /* if errno is already set, don't reset it */ 12044 if (un->un_errno) 12045 return; 12046 12047 /* here un_errno == 0 */ 12048 /* 12049 * if the last transfer before flushing all the 12050 * waiting I/O's, was 0 (resid = count), then we 12051 * want to give the user an error on all the rest, 12052 * so here. If there was a transfer, we set the 12053 * resid and counts to 0, and let it drop through, 12054 * giving a zero return. the next I/O will then 12055 * give an error. 12056 */ 12057 if (un->un_last_resid == un->un_last_count) { 12058 switch (un->un_pos.eof) { 12059 case ST_EOM: 12060 un->un_errno = ENOMEM; 12061 break; 12062 case ST_EOT: 12063 case ST_EOF: 12064 un->un_errno = EIO; 12065 break; 12066 } 12067 } else { 12068 /* 12069 * we know they did not have a zero, so make 12070 * sure they get one 12071 */ 12072 un->un_last_resid = un->un_last_count = 0; 12073 } 12074 } 12075 12076 12077 /* 12078 * send in a marker pkt to terminate flushing of commands by BBA (via 12079 * flush-on-errors) property. The HBA will always return TRAN_ACCEPT 12080 */ 12081 static void 12082 st_hba_unflush(struct scsi_tape *un) 12083 { 12084 ST_FUNC(ST_DEVINFO, st_hba_unflush); 12085 12086 ASSERT(mutex_owned(ST_MUTEX)); 12087 12088 if (!un->un_flush_on_errors) 12089 return; 12090 12091 #ifdef FLUSH_ON_ERRORS 12092 12093 if (!un->un_mkr_pkt) { 12094 un->un_mkr_pkt = scsi_init_pkt(ROUTE, NULL, (struct buf *)NULL, 12095 NULL, 0, 0, 0, SLEEP_FUNC, NULL); 12096 12097 /* we slept, so it must be there */ 12098 pkt->pkt_flags |= FLAG_FLUSH_MARKER; 12099 } 12100 12101 st_transport(un, un->un_mkr_pkt); 12102 #endif 12103 } 12104 12105 static char * 12106 st_print_scsi_cmd(char cmd) 12107 { 12108 char tmp[64]; 12109 char *cpnt; 12110 12111 cpnt = scsi_cmd_name(cmd, scsi_cmds, tmp); 12112 /* tmp goes out of scope on return and caller sees garbage */ 12113 if (cpnt == tmp) { 12114 cpnt = "Unknown Command"; 12115 } 12116 return (cpnt); 12117 } 12118 12119 static void 12120 st_print_cdb(dev_info_t *dip, char *label, uint_t level, 12121 char *title, char *cdb) 12122 { 12123 int len = scsi_cdb_size[CDB_GROUPID(cdb[0])]; 12124 char buf[256]; 12125 struct scsi_tape *un; 12126 int instance = ddi_get_instance(dip); 12127 12128 un = ddi_get_soft_state(st_state, instance); 12129 12130 ST_FUNC(dip, st_print_cdb); 12131 12132 /* force one line output so repeated commands are printed once */ 12133 if ((st_debug & 0x180) == 0x100) { 12134 scsi_log(dip, label, level, "node %s cmd %s\n", 12135 st_dev_name(un->un_dev), st_print_scsi_cmd(*cdb)); 12136 return; 12137 } 12138 12139 /* force one line output so repeated CDB's are printed once */ 12140 if ((st_debug & 0x180) == 0x80) { 12141 st_clean_print(dip, label, level, NULL, cdb, len); 12142 } else { 12143 (void) sprintf(buf, "%s for cmd(%s)", title, 12144 st_print_scsi_cmd(*cdb)); 12145 st_clean_print(dip, label, level, buf, cdb, len); 12146 } 12147 } 12148 12149 static void 12150 st_clean_print(dev_info_t *dev, char *label, uint_t level, 12151 char *title, char *data, int len) 12152 { 12153 int i; 12154 int c; 12155 char *format; 12156 char buf[256]; 12157 uchar_t byte; 12158 12159 ST_FUNC(dev, st_clean_print); 12160 12161 12162 if (title) { 12163 (void) sprintf(buf, "%s:\n", title); 12164 scsi_log(dev, label, level, "%s", buf); 12165 level = CE_CONT; 12166 } 12167 12168 for (i = 0; i < len; ) { 12169 buf[0] = 0; 12170 for (c = 0; c < 8 && i < len; c++, i++) { 12171 byte = (uchar_t)data[i]; 12172 if (byte < 0x10) 12173 format = "0x0%x "; 12174 else 12175 format = "0x%x "; 12176 (void) sprintf(&buf[(int)strlen(buf)], format, byte); 12177 } 12178 (void) sprintf(&buf[(int)strlen(buf)], "\n"); 12179 12180 scsi_log(dev, label, level, "%s\n", buf); 12181 level = CE_CONT; 12182 } 12183 } 12184 12185 /* 12186 * Conditionally enabled debugging 12187 */ 12188 #ifdef STDEBUG 12189 static void 12190 st_debug_cmds(struct scsi_tape *un, int com, int count, int wait) 12191 { 12192 char tmpbuf[64]; 12193 12194 ST_FUNC(ST_DEVINFO, st_debug_cmds); 12195 12196 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 12197 "cmd=%s count=0x%x (%d) %ssync\n", 12198 scsi_cmd_name(com, scsi_cmds, tmpbuf), 12199 count, count, 12200 wait == ASYNC_CMD ? "a" : ""); 12201 } 12202 #endif /* STDEBUG */ 12203 12204 /* 12205 * Returns pointer to name of minor node name of device 'dev'. 12206 */ 12207 static char * 12208 st_dev_name(dev_t dev) 12209 { 12210 struct scsi_tape *un; 12211 const char density[] = { 'l', 'm', 'h', 'c' }; 12212 static char name[32]; 12213 minor_t minor; 12214 int instance; 12215 int nprt = 0; 12216 12217 minor = getminor(dev); 12218 instance = ((minor & 0xff80) >> 5) | (minor & 3); 12219 un = ddi_get_soft_state(st_state, instance); 12220 if (un) { 12221 ST_FUNC(ST_DEVINFO, st_dev_name); 12222 } 12223 12224 name[nprt] = density[(minor & MT_DENSITY_MASK) >> 3]; 12225 12226 if (minor & MT_BSD) { 12227 name[++nprt] = 'b'; 12228 } 12229 12230 if (minor & MT_NOREWIND) { 12231 name[++nprt] = 'n'; 12232 } 12233 12234 /* NULL terminator */ 12235 name[++nprt] = 0; 12236 12237 return (name); 12238 } 12239 12240 /* 12241 * Soft error reporting, so far unique to each drive 12242 * 12243 * Currently supported: exabyte and DAT soft error reporting 12244 */ 12245 static int 12246 st_report_exabyte_soft_errors(dev_t dev, int flag) 12247 { 12248 uchar_t *sensep; 12249 int amt; 12250 int rval = 0; 12251 char cdb[CDB_GROUP0], *c = cdb; 12252 struct uscsi_cmd *com; 12253 12254 GET_SOFT_STATE(dev); 12255 12256 ST_FUNC(ST_DEVINFO, st_report_exabyte_soft_errors); 12257 12258 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 12259 "st_report_exabyte_soft_errors(dev = 0x%lx, flag = %d)\n", 12260 dev, flag); 12261 12262 ASSERT(mutex_owned(ST_MUTEX)); 12263 12264 com = kmem_zalloc(sizeof (*com), KM_SLEEP); 12265 sensep = kmem_zalloc(TAPE_SENSE_LENGTH, KM_SLEEP); 12266 12267 *c++ = SCMD_REQUEST_SENSE; 12268 *c++ = 0; 12269 *c++ = 0; 12270 *c++ = 0; 12271 *c++ = TAPE_SENSE_LENGTH; 12272 /* 12273 * set CLRCNT (byte 5, bit 7 which clears the error counts) 12274 */ 12275 *c = (char)0x80; 12276 12277 com->uscsi_cdb = cdb; 12278 com->uscsi_cdblen = CDB_GROUP0; 12279 com->uscsi_bufaddr = (caddr_t)sensep; 12280 com->uscsi_buflen = TAPE_SENSE_LENGTH; 12281 com->uscsi_flags = USCSI_DIAGNOSE | USCSI_SILENT | USCSI_READ; 12282 com->uscsi_timeout = un->un_dp->non_motion_timeout; 12283 12284 rval = st_uscsi_cmd(un, com, FKIOCTL); 12285 if (rval || com->uscsi_status) { 12286 goto done; 12287 } 12288 12289 /* 12290 * was there enough data? 12291 */ 12292 amt = (int)TAPE_SENSE_LENGTH - com->uscsi_resid; 12293 12294 if ((amt >= 19) && un->un_kbytes_xferred) { 12295 uint_t count, error_rate; 12296 uint_t rate; 12297 12298 if (sensep[21] & CLN) { 12299 scsi_log(ST_DEVINFO, st_label, CE_WARN, 12300 "Periodic head cleaning required"); 12301 } 12302 if (un->un_kbytes_xferred < (EXABYTE_MIN_TRANSFER/ONE_K)) { 12303 goto done; 12304 } 12305 /* 12306 * check if soft error reporting needs to be done. 12307 */ 12308 count = sensep[16] << 16 | sensep[17] << 8 | sensep[18]; 12309 count &= 0xffffff; 12310 error_rate = (count * 100)/un->un_kbytes_xferred; 12311 12312 #ifdef STDEBUG 12313 if (st_soft_error_report_debug) { 12314 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 12315 "Exabyte Soft Error Report:\n"); 12316 scsi_log(ST_DEVINFO, st_label, CE_CONT, 12317 "read/write error counter: %d\n", count); 12318 scsi_log(ST_DEVINFO, st_label, CE_CONT, 12319 "number of bytes transferred: %dK\n", 12320 un->un_kbytes_xferred); 12321 scsi_log(ST_DEVINFO, st_label, CE_CONT, 12322 "error_rate: %d%%\n", error_rate); 12323 12324 if (amt >= 22) { 12325 scsi_log(ST_DEVINFO, st_label, CE_CONT, 12326 "unit sense: 0x%b 0x%b 0x%b\n", 12327 sensep[19], SENSE_19_BITS, 12328 sensep[20], SENSE_20_BITS, 12329 sensep[21], SENSE_21_BITS); 12330 } 12331 if (amt >= 27) { 12332 scsi_log(ST_DEVINFO, st_label, CE_CONT, 12333 "tracking retry counter: %d\n", 12334 sensep[26]); 12335 scsi_log(ST_DEVINFO, st_label, CE_CONT, 12336 "read/write retry counter: %d\n", 12337 sensep[27]); 12338 } 12339 } 12340 #endif 12341 12342 if (flag & FWRITE) { 12343 rate = EXABYTE_WRITE_ERROR_THRESHOLD; 12344 } else { 12345 rate = EXABYTE_READ_ERROR_THRESHOLD; 12346 } 12347 if (error_rate >= rate) { 12348 scsi_log(ST_DEVINFO, st_label, CE_WARN, 12349 "Soft error rate (%d%%) during %s was too high", 12350 error_rate, 12351 ((flag & FWRITE) ? wrg_str : rdg_str)); 12352 scsi_log(ST_DEVINFO, st_label, CE_CONT, 12353 "Please, replace tape cartridge\n"); 12354 } 12355 } 12356 12357 done: 12358 kmem_free(com, sizeof (*com)); 12359 kmem_free(sensep, TAPE_SENSE_LENGTH); 12360 12361 if (rval != 0) { 12362 scsi_log(ST_DEVINFO, st_label, CE_WARN, 12363 "exabyte soft error reporting failed\n"); 12364 } 12365 return (rval); 12366 } 12367 12368 /* 12369 * this is very specific to Archive 4mm dat 12370 */ 12371 #define ONE_GIG (ONE_K * ONE_K * ONE_K) 12372 12373 static int 12374 st_report_dat_soft_errors(dev_t dev, int flag) 12375 { 12376 uchar_t *sensep; 12377 int amt, i; 12378 int rval = 0; 12379 char cdb[CDB_GROUP1], *c = cdb; 12380 struct uscsi_cmd *com; 12381 struct scsi_arq_status status; 12382 12383 GET_SOFT_STATE(dev); 12384 12385 ST_FUNC(ST_DEVINFO, st_report_dat_soft_errors); 12386 12387 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 12388 "st_report_dat_soft_errors(dev = 0x%lx, flag = %d)\n", dev, flag); 12389 12390 ASSERT(mutex_owned(ST_MUTEX)); 12391 12392 com = kmem_zalloc(sizeof (*com), KM_SLEEP); 12393 sensep = kmem_zalloc(LOG_SENSE_LENGTH, KM_SLEEP); 12394 12395 *c++ = SCMD_LOG_SENSE_G1; 12396 *c++ = 0; 12397 *c++ = (flag & FWRITE) ? 0x42 : 0x43; 12398 *c++ = 0; 12399 *c++ = 0; 12400 *c++ = 0; 12401 *c++ = 2; 12402 *c++ = 0; 12403 *c++ = (char)LOG_SENSE_LENGTH; 12404 *c = 0; 12405 com->uscsi_cdb = cdb; 12406 com->uscsi_cdblen = CDB_GROUP1; 12407 com->uscsi_bufaddr = (caddr_t)sensep; 12408 com->uscsi_buflen = LOG_SENSE_LENGTH; 12409 com->uscsi_rqlen = sizeof (status); 12410 com->uscsi_rqbuf = (caddr_t)&status; 12411 com->uscsi_flags = USCSI_DIAGNOSE | USCSI_RQENABLE | USCSI_READ; 12412 com->uscsi_timeout = un->un_dp->non_motion_timeout; 12413 rval = st_uscsi_cmd(un, com, FKIOCTL); 12414 if (rval) { 12415 scsi_log(ST_DEVINFO, st_label, CE_WARN, 12416 "DAT soft error reporting failed\n"); 12417 } 12418 if (rval || com->uscsi_status) { 12419 goto done; 12420 } 12421 12422 /* 12423 * was there enough data? 12424 */ 12425 amt = (int)LOG_SENSE_LENGTH - com->uscsi_resid; 12426 12427 if ((amt >= MIN_LOG_SENSE_LENGTH) && un->un_kbytes_xferred) { 12428 int total, retries, param_code; 12429 12430 total = -1; 12431 retries = -1; 12432 amt = sensep[3] + 4; 12433 12434 12435 #ifdef STDEBUG 12436 if (st_soft_error_report_debug) { 12437 (void) printf("logsense:"); 12438 for (i = 0; i < MIN_LOG_SENSE_LENGTH; i++) { 12439 if (i % 16 == 0) { 12440 (void) printf("\t\n"); 12441 } 12442 (void) printf(" %x", sensep[i]); 12443 } 12444 (void) printf("\n"); 12445 } 12446 #endif 12447 12448 /* 12449 * parse the param_codes 12450 */ 12451 if (sensep[0] == 2 || sensep[0] == 3) { 12452 for (i = 4; i < amt; i++) { 12453 param_code = (sensep[i++] << 8); 12454 param_code += sensep[i++]; 12455 i++; /* skip control byte */ 12456 if (param_code == 5) { 12457 if (sensep[i++] == 4) { 12458 total = (sensep[i++] << 24); 12459 total += (sensep[i++] << 16); 12460 total += (sensep[i++] << 8); 12461 total += sensep[i]; 12462 } 12463 } else if (param_code == 0x8007) { 12464 if (sensep[i++] == 2) { 12465 retries = sensep[i++] << 8; 12466 retries += sensep[i]; 12467 } 12468 } else { 12469 i += sensep[i]; 12470 } 12471 } 12472 } 12473 12474 /* 12475 * if the log sense returned valid numbers then determine 12476 * the read and write error thresholds based on the amount of 12477 * data transferred 12478 */ 12479 12480 if (total > 0 && retries > 0) { 12481 short normal_retries = 0; 12482 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 12483 "total xferred (%s) =%x, retries=%x\n", 12484 ((flag & FWRITE) ? wrg_str : rdg_str), 12485 total, retries); 12486 12487 if (flag & FWRITE) { 12488 if (total <= 12489 WRITE_SOFT_ERROR_WARNING_THRESHOLD) { 12490 normal_retries = 12491 DAT_SMALL_WRITE_ERROR_THRESHOLD; 12492 } else { 12493 normal_retries = 12494 DAT_LARGE_WRITE_ERROR_THRESHOLD; 12495 } 12496 } else { 12497 if (total <= 12498 READ_SOFT_ERROR_WARNING_THRESHOLD) { 12499 normal_retries = 12500 DAT_SMALL_READ_ERROR_THRESHOLD; 12501 } else { 12502 normal_retries = 12503 DAT_LARGE_READ_ERROR_THRESHOLD; 12504 } 12505 } 12506 12507 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 12508 "normal retries=%d\n", normal_retries); 12509 12510 if (retries >= normal_retries) { 12511 scsi_log(ST_DEVINFO, st_label, CE_WARN, 12512 "Soft error rate (retries = %d) during " 12513 "%s was too high", retries, 12514 ((flag & FWRITE) ? wrg_str : rdg_str)); 12515 scsi_log(ST_DEVINFO, st_label, CE_CONT, 12516 "Periodic head cleaning required " 12517 "and/or replace tape cartridge\n"); 12518 } 12519 12520 } else if (total == -1 || retries == -1) { 12521 scsi_log(ST_DEVINFO, st_label, CE_WARN, 12522 "log sense parameter code does not make sense\n"); 12523 } 12524 } 12525 12526 /* 12527 * reset all values 12528 */ 12529 c = cdb; 12530 *c++ = SCMD_LOG_SELECT_G1; 12531 *c++ = 2; /* this resets all values */ 12532 *c++ = (char)0xc0; 12533 *c++ = 0; 12534 *c++ = 0; 12535 *c++ = 0; 12536 *c++ = 0; 12537 *c++ = 0; 12538 *c++ = 0; 12539 *c = 0; 12540 com->uscsi_bufaddr = NULL; 12541 com->uscsi_buflen = 0; 12542 com->uscsi_flags = USCSI_DIAGNOSE | USCSI_SILENT; 12543 rval = st_uscsi_cmd(un, com, FKIOCTL); 12544 if (rval) { 12545 scsi_log(ST_DEVINFO, st_label, CE_WARN, 12546 "DAT soft error reset failed\n"); 12547 } 12548 done: 12549 kmem_free(com, sizeof (*com)); 12550 kmem_free(sensep, LOG_SENSE_LENGTH); 12551 return (rval); 12552 } 12553 12554 static int 12555 st_report_soft_errors(dev_t dev, int flag) 12556 { 12557 GET_SOFT_STATE(dev); 12558 12559 ST_FUNC(ST_DEVINFO, st_report_soft_errors); 12560 12561 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 12562 "st_report_soft_errors(dev = 0x%lx, flag = %d)\n", dev, flag); 12563 12564 ASSERT(mutex_owned(ST_MUTEX)); 12565 12566 switch (un->un_dp->type) { 12567 case ST_TYPE_EXB8500: 12568 case ST_TYPE_EXABYTE: 12569 return (st_report_exabyte_soft_errors(dev, flag)); 12570 /*NOTREACHED*/ 12571 case ST_TYPE_PYTHON: 12572 return (st_report_dat_soft_errors(dev, flag)); 12573 /*NOTREACHED*/ 12574 default: 12575 un->un_dp->options &= ~ST_SOFT_ERROR_REPORTING; 12576 return (-1); 12577 } 12578 } 12579 12580 /* 12581 * persistent error routines 12582 */ 12583 12584 /* 12585 * enable persistent errors, and set the throttle appropriately, checking 12586 * for flush-on-errors capability 12587 */ 12588 static void 12589 st_turn_pe_on(struct scsi_tape *un) 12590 { 12591 ST_FUNC(ST_DEVINFO, st_turn_pe_on); 12592 12593 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, "st_pe_on\n"); 12594 ASSERT(mutex_owned(ST_MUTEX)); 12595 12596 un->un_persistence = 1; 12597 12598 /* 12599 * only use flush-on-errors if auto-request-sense and untagged-qing are 12600 * enabled. This will simplify the error handling for request senses 12601 */ 12602 12603 if (un->un_arq_enabled && un->un_untagged_qing) { 12604 uchar_t f_o_e; 12605 12606 mutex_exit(ST_MUTEX); 12607 f_o_e = (scsi_ifsetcap(ROUTE, "flush-on-errors", 1, 1) == 1) ? 12608 1 : 0; 12609 mutex_enter(ST_MUTEX); 12610 12611 un->un_flush_on_errors = f_o_e; 12612 } else { 12613 un->un_flush_on_errors = 0; 12614 } 12615 12616 if (un->un_flush_on_errors) 12617 un->un_max_throttle = (uchar_t)st_max_throttle; 12618 else 12619 un->un_max_throttle = 1; 12620 12621 if (un->un_dp->options & ST_RETRY_ON_RECOVERED_DEFERRED_ERROR) 12622 un->un_max_throttle = 1; 12623 12624 /* this will send a marker pkt */ 12625 st_clear_pe(un); 12626 } 12627 12628 /* 12629 * This turns persistent errors permanently off 12630 */ 12631 static void 12632 st_turn_pe_off(struct scsi_tape *un) 12633 { 12634 ST_FUNC(ST_DEVINFO, st_turn_pe_off); 12635 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, "st_pe_off\n"); 12636 ASSERT(mutex_owned(ST_MUTEX)); 12637 12638 /* turn it off for good */ 12639 un->un_persistence = 0; 12640 12641 /* this will send a marker pkt */ 12642 st_clear_pe(un); 12643 12644 /* turn off flush on error capability, if enabled */ 12645 if (un->un_flush_on_errors) { 12646 mutex_exit(ST_MUTEX); 12647 (void) scsi_ifsetcap(ROUTE, "flush-on-errors", 0, 1); 12648 mutex_enter(ST_MUTEX); 12649 } 12650 12651 12652 un->un_flush_on_errors = 0; 12653 } 12654 12655 /* 12656 * This clear persistent errors, allowing more commands through, and also 12657 * sending a marker packet. 12658 */ 12659 static void 12660 st_clear_pe(struct scsi_tape *un) 12661 { 12662 ST_FUNC(ST_DEVINFO, st_clear_pe); 12663 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, "st_pe_clear\n"); 12664 ASSERT(mutex_owned(ST_MUTEX)); 12665 12666 un->un_persist_errors = 0; 12667 un->un_throttle = un->un_last_throttle = 1; 12668 un->un_errno = 0; 12669 st_hba_unflush(un); 12670 } 12671 12672 /* 12673 * This will flag persistent errors, shutting everything down, if the 12674 * application had enabled persistent errors via MTIOCPERSISTENT 12675 */ 12676 static void 12677 st_set_pe_flag(struct scsi_tape *un) 12678 { 12679 ST_FUNC(ST_DEVINFO, st_set_pe_flag); 12680 ASSERT(mutex_owned(ST_MUTEX)); 12681 12682 if (un->un_persistence) { 12683 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, "st_pe_flag\n"); 12684 un->un_persist_errors = 1; 12685 un->un_throttle = un->un_last_throttle = 0; 12686 cv_broadcast(&un->un_sbuf_cv); 12687 } 12688 } 12689 12690 static int 12691 st_do_reserve(struct scsi_tape *un) 12692 { 12693 int rval; 12694 int was_lost = un->un_rsvd_status & ST_LOST_RESERVE; 12695 12696 ST_FUNC(ST_DEVINFO, st_do_reserve); 12697 12698 /* 12699 * Issue a Throw-Away reserve command to clear the 12700 * check condition. 12701 * If the current behaviour of reserve/release is to 12702 * hold reservation across opens , and if a Bus reset 12703 * has been issued between opens then this command 12704 * would set the ST_LOST_RESERVE flags in rsvd_status. 12705 * In this case return an EACCES so that user knows that 12706 * reservation has been lost in between opens. 12707 * If this error is not returned and we continue with 12708 * successful open , then user may think position of the 12709 * tape is still the same but inreality we would rewind the 12710 * tape and continue from BOT. 12711 */ 12712 rval = st_reserve_release(un, ST_RESERVE, st_uscsi_cmd); 12713 if (rval) { 12714 if ((un->un_rsvd_status & ST_LOST_RESERVE_BETWEEN_OPENS) == 12715 ST_LOST_RESERVE_BETWEEN_OPENS) { 12716 un->un_rsvd_status &= ~(ST_LOST_RESERVE | ST_RESERVE); 12717 un->un_errno = EACCES; 12718 return (EACCES); 12719 } 12720 rval = st_reserve_release(un, ST_RESERVE, st_uscsi_cmd); 12721 } 12722 if (rval == 0) { 12723 un->un_rsvd_status |= ST_INIT_RESERVE; 12724 } 12725 if (was_lost) { 12726 un->un_running.pmode = invalid; 12727 } 12728 12729 return (rval); 12730 } 12731 12732 static int 12733 st_check_cdb_for_need_to_reserve(struct scsi_tape *un, uchar_t *cdb) 12734 { 12735 int rval; 12736 cmd_attribute const *attrib; 12737 12738 ST_FUNC(ST_DEVINFO, st_check_cdb_for_need_to_reserve); 12739 12740 /* 12741 * If already reserved no need to do it again. 12742 * Also if Reserve and Release are disabled Just return. 12743 */ 12744 if ((un->un_rsvd_status & (ST_APPLICATION_RESERVATIONS)) || 12745 ((un->un_rsvd_status & (ST_RESERVE | ST_LOST_RESERVE)) == 12746 ST_RESERVE) || (un->un_dp->options & ST_NO_RESERVE_RELEASE)) { 12747 ST_DEBUG6(ST_DEVINFO, st_label, CE_NOTE, 12748 "st_check_cdb_for_need_to_reserve() reserve unneeded %s", 12749 st_print_scsi_cmd((uchar_t)cdb[0])); 12750 return (0); 12751 } 12752 12753 /* See if command is on the list */ 12754 attrib = st_lookup_cmd_attribute(cdb[0]); 12755 12756 if (attrib == NULL) { 12757 rval = 1; /* Not found, when in doubt reserve */ 12758 } else if ((attrib->requires_reserve) != 0) { 12759 rval = 1; 12760 } else if ((attrib->reserve_byte) != 0) { 12761 /* 12762 * cmd is on list. 12763 * if byte is zero always allowed. 12764 */ 12765 rval = 1; 12766 } else if (((cdb[attrib->reserve_byte]) & 12767 (attrib->reserve_mask)) != 0) { 12768 rval = 1; 12769 } else { 12770 rval = 0; 12771 } 12772 12773 if (rval) { 12774 ST_DEBUG6(ST_DEVINFO, st_label, CE_NOTE, 12775 "Command %s requires reservation", 12776 st_print_scsi_cmd(cdb[0])); 12777 12778 rval = st_do_reserve(un); 12779 } 12780 12781 return (rval); 12782 } 12783 12784 static int 12785 st_check_cmd_for_need_to_reserve(struct scsi_tape *un, uchar_t cmd, int cnt) 12786 { 12787 int rval; 12788 cmd_attribute const *attrib; 12789 12790 ST_FUNC(ST_DEVINFO, st_check_cmd_for_need_to_reserve); 12791 12792 if ((un->un_rsvd_status & (ST_APPLICATION_RESERVATIONS)) || 12793 ((un->un_rsvd_status & (ST_RESERVE | ST_LOST_RESERVE)) == 12794 ST_RESERVE) || (un->un_dp->options & ST_NO_RESERVE_RELEASE)) { 12795 ST_DEBUG6(ST_DEVINFO, st_label, CE_NOTE, 12796 "st_check_cmd_for_need_to_reserve() reserve unneeded %s", 12797 st_print_scsi_cmd(cmd)); 12798 return (0); 12799 } 12800 12801 /* search for this command on the list */ 12802 attrib = st_lookup_cmd_attribute(cmd); 12803 12804 if (attrib == NULL) { 12805 rval = 1; /* Not found, when in doubt reserve */ 12806 } else if ((attrib->requires_reserve) != 0) { 12807 rval = 1; 12808 } else if ((attrib->reserve_byte) != 0) { 12809 /* 12810 * cmd is on list. 12811 * if byte is zero always allowed. 12812 */ 12813 rval = 1; 12814 } else if (((attrib->reserve_mask) & cnt) != 0) { 12815 rval = 1; 12816 } else { 12817 rval = 0; 12818 } 12819 12820 if (rval) { 12821 ST_DEBUG6(ST_DEVINFO, st_label, CE_NOTE, 12822 "Cmd %s requires reservation", st_print_scsi_cmd(cmd)); 12823 12824 rval = st_do_reserve(un); 12825 } 12826 12827 return (rval); 12828 } 12829 12830 static int 12831 st_reserve_release(struct scsi_tape *un, int cmd, ubufunc_t ubf) 12832 { 12833 struct uscsi_cmd uscsi_cmd; 12834 int rval; 12835 char cdb[CDB_GROUP0]; 12836 struct scsi_arq_status stat; 12837 12838 12839 12840 ST_FUNC(ST_DEVINFO, st_reserve_release); 12841 12842 ASSERT(mutex_owned(ST_MUTEX)); 12843 12844 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 12845 "st_reserve_release: %s \n", 12846 (cmd == ST_RELEASE)? "Releasing":"Reserving"); 12847 12848 bzero(&cdb, CDB_GROUP0); 12849 if (cmd == ST_RELEASE) { 12850 cdb[0] = SCMD_RELEASE; 12851 } else { 12852 cdb[0] = SCMD_RESERVE; 12853 } 12854 bzero(&uscsi_cmd, sizeof (struct uscsi_cmd)); 12855 uscsi_cmd.uscsi_flags = USCSI_WRITE | USCSI_RQENABLE; 12856 uscsi_cmd.uscsi_cdb = cdb; 12857 uscsi_cmd.uscsi_cdblen = CDB_GROUP0; 12858 uscsi_cmd.uscsi_timeout = un->un_dp->non_motion_timeout; 12859 uscsi_cmd.uscsi_rqbuf = (caddr_t)&stat; 12860 uscsi_cmd.uscsi_rqlen = sizeof (stat); 12861 12862 rval = ubf(un, &uscsi_cmd, FKIOCTL); 12863 12864 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 12865 "st_reserve_release: rval(1)=%d\n", rval); 12866 12867 if (rval) { 12868 if (uscsi_cmd.uscsi_status == STATUS_RESERVATION_CONFLICT) { 12869 rval = EACCES; 12870 } 12871 /* 12872 * dynamically turn off reserve/release support 12873 * in case of drives which do not support 12874 * reserve/release command(ATAPI drives). 12875 */ 12876 if (un->un_status == KEY_ILLEGAL_REQUEST) { 12877 if (un->un_dp->options & ST_NO_RESERVE_RELEASE) { 12878 un->un_dp->options |= ST_NO_RESERVE_RELEASE; 12879 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 12880 "Tape unit does not support " 12881 "reserve/release \n"); 12882 } 12883 rval = 0; 12884 } 12885 } 12886 return (rval); 12887 } 12888 12889 static int 12890 st_take_ownership(struct scsi_tape *un, ubufunc_t ubf) 12891 { 12892 int rval; 12893 12894 ST_FUNC(ST_DEVINFO, st_take_ownership); 12895 12896 ASSERT(mutex_owned(ST_MUTEX)); 12897 12898 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 12899 "st_take_ownership: Entering ...\n"); 12900 12901 12902 rval = st_reserve_release(un, ST_RESERVE, ubf); 12903 /* 12904 * XXX -> Should reset be done only if we get EACCES. 12905 * . 12906 */ 12907 if (rval) { 12908 if (st_reset(un, RESET_LUN) == 0) { 12909 return (EIO); 12910 } 12911 un->un_rsvd_status &= 12912 ~(ST_LOST_RESERVE | ST_RESERVATION_CONFLICT); 12913 12914 mutex_exit(ST_MUTEX); 12915 delay(drv_usectohz(ST_RESERVATION_DELAY)); 12916 mutex_enter(ST_MUTEX); 12917 /* 12918 * remove the check condition. 12919 */ 12920 (void) st_reserve_release(un, ST_RESERVE, ubf); 12921 rval = st_reserve_release(un, ST_RESERVE, ubf); 12922 if (rval != 0) { 12923 if ((st_reserve_release(un, ST_RESERVE, ubf)) 12924 != 0) { 12925 rval = (un->un_rsvd_status & 12926 ST_RESERVATION_CONFLICT) ? EACCES : EIO; 12927 return (rval); 12928 } 12929 } 12930 /* 12931 * Set tape state to ST_STATE_OFFLINE , in case if 12932 * the user wants to continue and start using 12933 * the tape. 12934 */ 12935 un->un_state = ST_STATE_OFFLINE; 12936 un->un_rsvd_status |= ST_INIT_RESERVE; 12937 } 12938 return (rval); 12939 } 12940 12941 static int 12942 st_create_errstats(struct scsi_tape *un, int instance) 12943 { 12944 char kstatname[KSTAT_STRLEN]; 12945 12946 ST_FUNC(ST_DEVINFO, st_create_errstats); 12947 12948 /* 12949 * Create device error kstats 12950 */ 12951 12952 if (un->un_errstats == (kstat_t *)0) { 12953 (void) sprintf(kstatname, "st%d,err", instance); 12954 un->un_errstats = kstat_create("sterr", instance, kstatname, 12955 "device_error", KSTAT_TYPE_NAMED, 12956 sizeof (struct st_errstats) / sizeof (kstat_named_t), 12957 KSTAT_FLAG_PERSISTENT); 12958 12959 if (un->un_errstats) { 12960 struct st_errstats *stp; 12961 12962 stp = (struct st_errstats *)un->un_errstats->ks_data; 12963 kstat_named_init(&stp->st_softerrs, "Soft Errors", 12964 KSTAT_DATA_ULONG); 12965 kstat_named_init(&stp->st_harderrs, "Hard Errors", 12966 KSTAT_DATA_ULONG); 12967 kstat_named_init(&stp->st_transerrs, "Transport Errors", 12968 KSTAT_DATA_ULONG); 12969 kstat_named_init(&stp->st_vid, "Vendor", 12970 KSTAT_DATA_CHAR); 12971 kstat_named_init(&stp->st_pid, "Product", 12972 KSTAT_DATA_CHAR); 12973 kstat_named_init(&stp->st_revision, "Revision", 12974 KSTAT_DATA_CHAR); 12975 kstat_named_init(&stp->st_serial, "Serial No", 12976 KSTAT_DATA_CHAR); 12977 un->un_errstats->ks_private = un; 12978 un->un_errstats->ks_update = nulldev; 12979 kstat_install(un->un_errstats); 12980 /* 12981 * Fill in the static data 12982 */ 12983 (void) strncpy(&stp->st_vid.value.c[0], 12984 ST_INQUIRY->inq_vid, 8); 12985 /* 12986 * XXX: Emulex MT-02 (and emulators) predates 12987 * SCSI-1 and has no vid & pid inquiry data. 12988 */ 12989 if (ST_INQUIRY->inq_len != 0) { 12990 (void) strncpy(&stp->st_pid.value.c[0], 12991 ST_INQUIRY->inq_pid, 16); 12992 (void) strncpy(&stp->st_revision.value.c[0], 12993 ST_INQUIRY->inq_revision, 4); 12994 (void) strncpy(&stp->st_serial.value.c[0], 12995 ST_INQUIRY->inq_serial, 12); 12996 } 12997 } 12998 } 12999 return (0); 13000 } 13001 13002 static int 13003 st_validate_tapemarks(struct scsi_tape *un, ubufunc_t ubf, tapepos_t *pos) 13004 { 13005 int rval; 13006 bufunc_t bf = (ubf == st_uscsi_rcmd) ? st_rcmd : st_cmd; 13007 13008 ST_FUNC(ST_DEVINFO, st_validate_tapemarks); 13009 13010 ASSERT(MUTEX_HELD(&un->un_sd->sd_mutex)); 13011 ASSERT(mutex_owned(ST_MUTEX)); 13012 13013 /* Can't restore an invalid position */ 13014 if (pos->pmode == invalid) { 13015 return (4); 13016 } 13017 13018 /* 13019 * Assumtions: 13020 * If a position was read and is in logical position mode. 13021 * If a drive supports read position it supports locate. 13022 * If the read position type is not NO_POS. even though 13023 * a read position make not have been attemped yet. 13024 * 13025 * The drive can locate to the position. 13026 */ 13027 if (pos->pmode == logical || un->un_read_pos_type != NO_POS) { 13028 /* 13029 * If position mode is logical or legacy mode try 13030 * to locate there as it is faster. 13031 * If it fails try the old way. 13032 */ 13033 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 13034 "Restoring tape position to lgclblkbo=0x%"PRIx64"....", 13035 pos->lgclblkno); 13036 13037 if (st_logical_block_locate(un, st_uscsi_cmd, &un->un_pos, 13038 pos->lgclblkno, pos->partition) == 0) { 13039 /* Assume we are there copy rest of position back */ 13040 if (un->un_pos.lgclblkno == pos->lgclblkno) { 13041 COPY_POS(&un->un_pos, pos); 13042 } 13043 return (0); 13044 } 13045 13046 /* 13047 * If logical block locate failed to restore a logical 13048 * position, can't recover. 13049 */ 13050 if (pos->pmode == logical) { 13051 return (-1); 13052 } 13053 } 13054 13055 13056 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 13057 "Restoring tape position at fileno=%x, blkno=%x....", 13058 pos->fileno, pos->blkno); 13059 13060 /* 13061 * Rewind ? Oh yeah, Fidelity has got the STK F/W changed 13062 * so as not to rewind tape on RESETS: Gee, Has life ever 13063 * been simple in tape land ? 13064 */ 13065 rval = bf(un, SCMD_REWIND, 0, SYNC_CMD); 13066 if (rval) { 13067 scsi_log(ST_DEVINFO, st_label, CE_WARN, 13068 "Failed to restore the last file and block position: In" 13069 " this state, Tape will be loaded at BOT during next open"); 13070 un->un_pos.pmode = invalid; 13071 return (rval); 13072 } 13073 13074 /* If the position was as the result of back space file */ 13075 if (pos->blkno > (INF / 2)) { 13076 /* Go one extra file forward */ 13077 pos->fileno++; 13078 /* Figure how many blocks to back into the previous file */ 13079 pos->blkno = -(INF - pos->blkno); 13080 } 13081 13082 /* Go to requested fileno */ 13083 if (pos->fileno) { 13084 rval = st_cmd(un, SCMD_SPACE, Fmk(pos->fileno), SYNC_CMD); 13085 if (rval) { 13086 scsi_log(ST_DEVINFO, st_label, CE_WARN, 13087 "Failed to restore the last file position: In this " 13088 " state, Tape will be loaded at BOT during next" 13089 " open %d", __LINE__); 13090 un->un_pos.pmode = invalid; 13091 pos->pmode = invalid; 13092 return (rval); 13093 } 13094 } 13095 13096 /* 13097 * If backing into a file we already did an extra file forward. 13098 * Now we have to back over the filemark to get to the end of 13099 * the previous file. The blkno has been ajusted to a negative 13100 * value so we will get to the expected location. 13101 */ 13102 if (pos->blkno) { 13103 rval = bf(un, SCMD_SPACE, Fmk(-1), SYNC_CMD); 13104 if (rval) { 13105 scsi_log(ST_DEVINFO, st_label, CE_WARN, 13106 "Failed to restore the last file position: In this " 13107 " state, Tape will be loaded at BOT during next" 13108 " open %d", __LINE__); 13109 un->un_pos.pmode = invalid; 13110 pos->pmode = invalid; 13111 return (rval); 13112 } 13113 } 13114 13115 /* 13116 * The position mode, block and fileno should be correct, 13117 * This updates eof and logical position information. 13118 */ 13119 un->un_pos.eof = pos->eof; 13120 un->un_pos.lgclblkno = pos->lgclblkno; 13121 13122 return (0); 13123 } 13124 13125 /* 13126 * check sense key, ASC, ASCQ in order to determine if the tape needs 13127 * to be ejected 13128 */ 13129 13130 static int 13131 st_check_asc_ascq(struct scsi_tape *un) 13132 { 13133 struct scsi_extended_sense *sensep = ST_RQSENSE; 13134 struct tape_failure_code *code; 13135 13136 ST_FUNC(ST_DEVINFO, st_check_asc_ascq); 13137 13138 for (code = st_tape_failure_code; code->key != 0xff; code++) { 13139 if ((code->key == sensep->es_key) && 13140 (code->add_code == sensep->es_add_code) && 13141 (code->qual_code == sensep->es_qual_code)) 13142 return (1); 13143 } 13144 return (0); 13145 } 13146 13147 /* 13148 * st_logpage_supported() sends a Log Sense command with 13149 * page code = 0 = Supported Log Pages Page to the device, 13150 * to see whether the page 'page' is supported. 13151 * Return values are: 13152 * -1 if the Log Sense command fails 13153 * 0 if page is not supported 13154 * 1 if page is supported 13155 */ 13156 13157 static int 13158 st_logpage_supported(struct scsi_tape *un, uchar_t page) 13159 { 13160 uchar_t *sp, *sensep; 13161 unsigned length; 13162 struct uscsi_cmd *com; 13163 struct scsi_arq_status status; 13164 int rval; 13165 char cdb[CDB_GROUP1] = { 13166 SCMD_LOG_SENSE_G1, 13167 0, 13168 SUPPORTED_LOG_PAGES_PAGE, 13169 0, 13170 0, 13171 0, 13172 0, 13173 0, 13174 (char)LOG_SENSE_LENGTH, 13175 0 13176 }; 13177 13178 ST_FUNC(ST_DEVINFO, st_logpage_supported); 13179 13180 ASSERT(mutex_owned(ST_MUTEX)); 13181 13182 com = kmem_zalloc(sizeof (struct uscsi_cmd), KM_SLEEP); 13183 sensep = kmem_zalloc(LOG_SENSE_LENGTH, KM_SLEEP); 13184 13185 com->uscsi_cdb = cdb; 13186 com->uscsi_cdblen = CDB_GROUP1; 13187 com->uscsi_bufaddr = (caddr_t)sensep; 13188 com->uscsi_buflen = LOG_SENSE_LENGTH; 13189 com->uscsi_rqlen = sizeof (status); 13190 com->uscsi_rqbuf = (caddr_t)&status; 13191 com->uscsi_flags = 13192 USCSI_DIAGNOSE | USCSI_RQENABLE | USCSI_READ; 13193 com->uscsi_timeout = un->un_dp->non_motion_timeout; 13194 rval = st_uscsi_cmd(un, com, FKIOCTL); 13195 if (rval || com->uscsi_status) { 13196 /* uscsi-command failed */ 13197 rval = -1; 13198 } else { 13199 13200 sp = sensep + 3; 13201 13202 for (length = *sp++; length > 0; length--, sp++) { 13203 13204 if (*sp == page) { 13205 rval = 1; 13206 break; 13207 } 13208 } 13209 } 13210 kmem_free(com, sizeof (struct uscsi_cmd)); 13211 kmem_free(sensep, LOG_SENSE_LENGTH); 13212 return (rval); 13213 } 13214 13215 13216 /* 13217 * st_check_clean_bit() gets the status of the tape's cleaning bit. 13218 * 13219 * If the device does support the TapeAlert log page, then the cleaning bit 13220 * information will be read from this page. Otherwise we will see if one of 13221 * ST_CLN_TYPE_1, ST_CLN_TYPE_2 or ST_CLN_TYPE_3 is set in the properties of 13222 * the device, which means, that we can get the cleaning bit information via 13223 * a RequestSense command. 13224 * If both methods of getting cleaning bit information are not supported 13225 * st_check_clean_bit() will return with 0. Otherwise st_check_clean_bit() 13226 * returns with 13227 * - MTF_TAPE_CLN_SUPPORTED if cleaning bit is not set or 13228 * - MTF_TAPE_CLN_SUPPORTED | MTF_TAPE_HEAD_DIRTY if cleaning bit is set. 13229 * If the call to st_uscsi_cmd() to do the Log Sense or the Request Sense 13230 * command fails, or if the amount of Request Sense data is not enough, then 13231 * st_check_clean_bit() returns with -1. 13232 */ 13233 13234 static int 13235 st_check_clean_bit(struct scsi_tape *un) 13236 { 13237 int rval = 0; 13238 13239 ST_FUNC(ST_DEVINFO, st_check_clean_bit); 13240 13241 ASSERT(mutex_owned(ST_MUTEX)); 13242 13243 if (un->un_HeadClean & TAPE_ALERT_NOT_SUPPORTED) { 13244 return (rval); 13245 } 13246 13247 if (un->un_HeadClean == TAPE_ALERT_SUPPORT_UNKNOWN) { 13248 13249 rval = st_logpage_supported(un, TAPE_SEQUENTIAL_PAGE); 13250 if (rval == -1) { 13251 return (0); 13252 } 13253 if (rval == 1) { 13254 13255 un->un_HeadClean |= TAPE_SEQUENTIAL_SUPPORTED; 13256 } 13257 13258 rval = st_logpage_supported(un, TAPE_ALERT_PAGE); 13259 if (rval == -1) { 13260 return (0); 13261 } 13262 if (rval == 1) { 13263 13264 un->un_HeadClean |= TAPE_ALERT_SUPPORTED; 13265 } 13266 13267 if (un->un_HeadClean == TAPE_ALERT_SUPPORT_UNKNOWN) { 13268 13269 un->un_HeadClean = TAPE_ALERT_NOT_SUPPORTED; 13270 } 13271 } 13272 13273 rval = 0; 13274 13275 if (un->un_HeadClean & TAPE_SEQUENTIAL_SUPPORTED) { 13276 13277 rval = st_check_sequential_clean_bit(un); 13278 if (rval == -1) { 13279 return (0); 13280 } 13281 } 13282 13283 if ((rval == 0) && (un->un_HeadClean & TAPE_ALERT_SUPPORTED)) { 13284 13285 rval = st_check_alert_flags(un); 13286 if (rval == -1) { 13287 return (0); 13288 } 13289 } 13290 13291 if ((rval == 0) && (un->un_dp->options & ST_CLN_MASK)) { 13292 13293 rval = st_check_sense_clean_bit(un); 13294 if (rval == -1) { 13295 return (0); 13296 } 13297 } 13298 13299 /* 13300 * If found a supported means to check need to clean. 13301 */ 13302 if (rval & MTF_TAPE_CLN_SUPPORTED) { 13303 13304 /* 13305 * head needs to be cleaned. 13306 */ 13307 if (rval & MTF_TAPE_HEAD_DIRTY) { 13308 13309 /* 13310 * Print log message only first time 13311 * found needing cleaned. 13312 */ 13313 if ((un->un_HeadClean & TAPE_PREVIOUSLY_DIRTY) == 0) { 13314 13315 scsi_log(ST_DEVINFO, st_label, CE_WARN, 13316 "Periodic head cleaning required"); 13317 13318 un->un_HeadClean |= TAPE_PREVIOUSLY_DIRTY; 13319 } 13320 13321 } else { 13322 13323 un->un_HeadClean &= ~TAPE_PREVIOUSLY_DIRTY; 13324 } 13325 } 13326 13327 return (rval); 13328 } 13329 13330 13331 static int 13332 st_check_sequential_clean_bit(struct scsi_tape *un) 13333 { 13334 int rval; 13335 int ix; 13336 ushort_t parameter; 13337 struct uscsi_cmd *cmd; 13338 struct log_sequential_page *sp; 13339 struct log_sequential_page_parameter *prm; 13340 struct scsi_arq_status status; 13341 char cdb[CDB_GROUP1] = { 13342 SCMD_LOG_SENSE_G1, 13343 0, 13344 TAPE_SEQUENTIAL_PAGE | CURRENT_CUMULATIVE_VALUES, 13345 0, 13346 0, 13347 0, 13348 0, 13349 (char)(sizeof (struct log_sequential_page) >> 8), 13350 (char)(sizeof (struct log_sequential_page)), 13351 0 13352 }; 13353 13354 ST_FUNC(ST_DEVINFO, st_check_sequential_clean_bit); 13355 13356 cmd = kmem_zalloc(sizeof (struct uscsi_cmd), KM_SLEEP); 13357 sp = kmem_zalloc(sizeof (struct log_sequential_page), KM_SLEEP); 13358 13359 cmd->uscsi_flags = 13360 USCSI_DIAGNOSE | USCSI_RQENABLE | USCSI_READ; 13361 cmd->uscsi_timeout = un->un_dp->non_motion_timeout; 13362 cmd->uscsi_cdb = cdb; 13363 cmd->uscsi_cdblen = CDB_GROUP1; 13364 cmd->uscsi_bufaddr = (caddr_t)sp; 13365 cmd->uscsi_buflen = sizeof (struct log_sequential_page); 13366 cmd->uscsi_rqlen = sizeof (status); 13367 cmd->uscsi_rqbuf = (caddr_t)&status; 13368 13369 rval = st_uscsi_cmd(un, cmd, FKIOCTL); 13370 13371 if (rval || cmd->uscsi_status || cmd->uscsi_resid) { 13372 13373 rval = -1; 13374 13375 } else if (sp->log_page.code != TAPE_SEQUENTIAL_PAGE) { 13376 13377 rval = -1; 13378 } 13379 13380 prm = &sp->param[0]; 13381 13382 for (ix = 0; rval == 0 && ix < TAPE_SEQUENTIAL_PAGE_PARA; ix++) { 13383 13384 if (prm->log_param.length == 0) { 13385 break; 13386 } 13387 13388 parameter = (((prm->log_param.pc_hi << 8) & 0xff00) + 13389 (prm->log_param.pc_lo & 0xff)); 13390 13391 if (parameter == SEQUENTIAL_NEED_CLN) { 13392 13393 rval = MTF_TAPE_CLN_SUPPORTED; 13394 if (prm->param_value[prm->log_param.length - 1]) { 13395 13396 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13397 "sequential log says head dirty\n"); 13398 rval |= MTF_TAPE_HEAD_DIRTY; 13399 } 13400 } 13401 prm = (struct log_sequential_page_parameter *) 13402 &prm->param_value[prm->log_param.length]; 13403 } 13404 13405 kmem_free(cmd, sizeof (struct uscsi_cmd)); 13406 kmem_free(sp, sizeof (struct log_sequential_page)); 13407 13408 return (rval); 13409 } 13410 13411 13412 static int 13413 st_check_alert_flags(struct scsi_tape *un) 13414 { 13415 struct st_tape_alert *ta; 13416 struct uscsi_cmd *com; 13417 struct scsi_arq_status status; 13418 unsigned ix, length; 13419 int rval; 13420 tape_alert_flags flag; 13421 char cdb[CDB_GROUP1] = { 13422 SCMD_LOG_SENSE_G1, 13423 0, 13424 TAPE_ALERT_PAGE | CURRENT_THRESHOLD_VALUES, 13425 0, 13426 0, 13427 0, 13428 0, 13429 (char)(sizeof (struct st_tape_alert) >> 8), 13430 (char)(sizeof (struct st_tape_alert)), 13431 0 13432 }; 13433 13434 ST_FUNC(ST_DEVINFO, st_check_alert_clean_bit); 13435 13436 com = kmem_zalloc(sizeof (struct uscsi_cmd), KM_SLEEP); 13437 ta = kmem_zalloc(sizeof (struct st_tape_alert), KM_SLEEP); 13438 13439 com->uscsi_cdb = cdb; 13440 com->uscsi_cdblen = CDB_GROUP1; 13441 com->uscsi_bufaddr = (caddr_t)ta; 13442 com->uscsi_buflen = sizeof (struct st_tape_alert); 13443 com->uscsi_rqlen = sizeof (status); 13444 com->uscsi_rqbuf = (caddr_t)&status; 13445 com->uscsi_flags = 13446 USCSI_DIAGNOSE | USCSI_RQENABLE | USCSI_READ; 13447 com->uscsi_timeout = un->un_dp->non_motion_timeout; 13448 13449 rval = st_uscsi_cmd(un, com, FKIOCTL); 13450 13451 if (rval || com->uscsi_status || com->uscsi_resid) { 13452 13453 rval = -1; /* uscsi-command failed */ 13454 13455 } else if (ta->log_page.code != TAPE_ALERT_PAGE) { 13456 13457 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13458 "Not Alert Log Page returned 0x%X\n", ta->log_page.code); 13459 rval = -1; 13460 } 13461 13462 length = (ta->log_page.length_hi << 8) + ta->log_page.length_lo; 13463 13464 13465 if (length != TAPE_ALERT_PARAMETER_LENGTH) { 13466 13467 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13468 "TapeAlert length %d\n", length); 13469 } 13470 13471 13472 for (ix = 0; ix < TAPE_ALERT_MAX_PARA; ix++) { 13473 13474 /* 13475 * if rval is bad before the first pass don't bother 13476 */ 13477 if (ix == 0 && rval != 0) { 13478 13479 break; 13480 } 13481 13482 flag = ((ta->param[ix].log_param.pc_hi << 8) + 13483 ta->param[ix].log_param.pc_lo); 13484 13485 if ((ta->param[ix].param_value & 1) == 0) { 13486 continue; 13487 } 13488 /* 13489 * check to see if current parameter is of interest. 13490 * CLEAN_FOR_ERRORS is vendor specific to 9840 9940 stk's. 13491 */ 13492 if ((flag == TAF_CLEAN_NOW) || 13493 (flag == TAF_CLEAN_PERIODIC) || 13494 ((flag == CLEAN_FOR_ERRORS) && 13495 (un->un_dp->type == ST_TYPE_STK9840))) { 13496 13497 rval = MTF_TAPE_CLN_SUPPORTED; 13498 13499 13500 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13501 "alert_page drive needs clean %d\n", flag); 13502 un->un_HeadClean |= TAPE_ALERT_STILL_DIRTY; 13503 rval |= MTF_TAPE_HEAD_DIRTY; 13504 13505 } else if (flag == TAF_CLEANING_MEDIA) { 13506 13507 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13508 "alert_page drive was cleaned\n"); 13509 un->un_HeadClean &= ~TAPE_ALERT_STILL_DIRTY; 13510 } 13511 13512 } 13513 13514 /* 13515 * Report it as dirty till we see it cleaned 13516 */ 13517 if (un->un_HeadClean & TAPE_ALERT_STILL_DIRTY) { 13518 13519 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13520 "alert_page still dirty\n"); 13521 rval |= MTF_TAPE_HEAD_DIRTY; 13522 } 13523 13524 kmem_free(com, sizeof (struct uscsi_cmd)); 13525 kmem_free(ta, sizeof (struct st_tape_alert)); 13526 13527 return (rval); 13528 } 13529 13530 13531 static int 13532 st_check_sense_clean_bit(struct scsi_tape *un) 13533 { 13534 uchar_t *sensep; 13535 char cdb[CDB_GROUP0]; 13536 struct uscsi_cmd *com; 13537 ushort_t byte_pos; 13538 uchar_t bit_mask; 13539 unsigned length; 13540 int index; 13541 int rval; 13542 13543 ST_FUNC(ST_DEVINFO, st_check_sense_clean_bit); 13544 13545 /* 13546 * Since this tape does not support Tape Alert, 13547 * we now try to get the cleanbit status via 13548 * Request Sense. 13549 */ 13550 13551 if ((un->un_dp->options & ST_CLN_MASK) == ST_CLN_TYPE_1) { 13552 13553 index = 0; 13554 13555 } else if ((un->un_dp->options & ST_CLN_MASK) == ST_CLN_TYPE_2) { 13556 13557 index = 1; 13558 13559 } else if ((un->un_dp->options & ST_CLN_MASK) == ST_CLN_TYPE_3) { 13560 13561 index = 2; 13562 13563 } else { 13564 13565 return (-1); 13566 } 13567 13568 byte_pos = st_cln_bit_position[index].cln_bit_byte; 13569 bit_mask = st_cln_bit_position[index].cln_bit_mask; 13570 length = byte_pos + 1; 13571 13572 com = kmem_zalloc(sizeof (struct uscsi_cmd), KM_SLEEP); 13573 sensep = kmem_zalloc(length, KM_SLEEP); 13574 13575 cdb[0] = SCMD_REQUEST_SENSE; 13576 cdb[1] = 0; 13577 cdb[2] = 0; 13578 cdb[3] = 0; 13579 cdb[4] = (char)length; 13580 cdb[5] = 0; 13581 13582 com->uscsi_cdb = cdb; 13583 com->uscsi_cdblen = CDB_GROUP0; 13584 com->uscsi_bufaddr = (caddr_t)sensep; 13585 com->uscsi_buflen = length; 13586 com->uscsi_flags = 13587 USCSI_DIAGNOSE | USCSI_SILENT | USCSI_READ; 13588 com->uscsi_timeout = un->un_dp->non_motion_timeout; 13589 13590 rval = st_uscsi_cmd(un, com, FKIOCTL); 13591 13592 if (rval || com->uscsi_status || com->uscsi_resid) { 13593 13594 rval = -1; 13595 13596 } else { 13597 13598 rval = MTF_TAPE_CLN_SUPPORTED; 13599 if ((sensep[byte_pos] & bit_mask) == bit_mask) { 13600 13601 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13602 "sense data says head dirty\n"); 13603 rval |= MTF_TAPE_HEAD_DIRTY; 13604 } 13605 } 13606 13607 kmem_free(com, sizeof (struct uscsi_cmd)); 13608 kmem_free(sensep, length); 13609 return (rval); 13610 } 13611 13612 /* 13613 * st_clear_unit_attention 13614 * 13615 * run test unit ready's to clear out outstanding 13616 * unit attentions. 13617 * returns zero for SUCCESS or the errno from st_cmd call 13618 */ 13619 static int 13620 st_clear_unit_attentions(dev_t dev_instance, int max_trys) 13621 { 13622 int i = 0; 13623 int rval; 13624 13625 GET_SOFT_STATE(dev_instance); 13626 ST_FUNC(ST_DEVINFO, st_clear_unit_attentions); 13627 13628 do { 13629 rval = st_cmd(un, SCMD_TEST_UNIT_READY, 0, SYNC_CMD); 13630 } while ((rval != 0) && (rval != ENXIO) && (++i < max_trys)); 13631 return (rval); 13632 } 13633 13634 static void 13635 st_calculate_timeouts(struct scsi_tape *un) 13636 { 13637 ST_FUNC(ST_DEVINFO, st_calculate_timeouts); 13638 13639 if (un->un_dp->non_motion_timeout == 0) { 13640 if (un->un_dp->options & ST_LONG_TIMEOUTS) { 13641 un->un_dp->non_motion_timeout = 13642 st_io_time * st_long_timeout_x; 13643 } else { 13644 un->un_dp->non_motion_timeout = (ushort_t)st_io_time; 13645 } 13646 } 13647 13648 if (un->un_dp->io_timeout == 0) { 13649 if (un->un_dp->options & ST_LONG_TIMEOUTS) { 13650 un->un_dp->io_timeout = st_io_time * st_long_timeout_x; 13651 } else { 13652 un->un_dp->io_timeout = (ushort_t)st_io_time; 13653 } 13654 } 13655 13656 if (un->un_dp->rewind_timeout == 0) { 13657 if (un->un_dp->options & ST_LONG_TIMEOUTS) { 13658 un->un_dp->rewind_timeout = 13659 st_space_time * st_long_timeout_x; 13660 } else { 13661 un->un_dp->rewind_timeout = (ushort_t)st_space_time; 13662 } 13663 } 13664 13665 if (un->un_dp->space_timeout == 0) { 13666 if (un->un_dp->options & ST_LONG_TIMEOUTS) { 13667 un->un_dp->space_timeout = 13668 st_space_time * st_long_timeout_x; 13669 } else { 13670 un->un_dp->space_timeout = (ushort_t)st_space_time; 13671 } 13672 } 13673 13674 if (un->un_dp->load_timeout == 0) { 13675 if (un->un_dp->options & ST_LONG_TIMEOUTS) { 13676 un->un_dp->load_timeout = 13677 st_space_time * st_long_timeout_x; 13678 } else { 13679 un->un_dp->load_timeout = (ushort_t)st_space_time; 13680 } 13681 } 13682 13683 if (un->un_dp->unload_timeout == 0) { 13684 if (un->un_dp->options & ST_LONG_TIMEOUTS) { 13685 un->un_dp->unload_timeout = 13686 st_space_time * st_long_timeout_x; 13687 } else { 13688 un->un_dp->unload_timeout = (ushort_t)st_space_time; 13689 } 13690 } 13691 13692 if (un->un_dp->erase_timeout == 0) { 13693 if (un->un_dp->options & ST_LONG_ERASE) { 13694 un->un_dp->erase_timeout = 13695 st_space_time * st_long_space_time_x; 13696 } else { 13697 un->un_dp->erase_timeout = (ushort_t)st_space_time; 13698 } 13699 } 13700 } 13701 13702 13703 static writablity 13704 st_is_not_wormable(struct scsi_tape *un) 13705 { 13706 ST_FUNC(ST_DEVINFO, st_is_not_wormable); 13707 return (RDWR); 13708 } 13709 13710 static writablity 13711 st_is_hp_dat_tape_worm(struct scsi_tape *un) 13712 { 13713 writablity wrt; 13714 13715 ST_FUNC(ST_DEVINFO, st_is_hp_dat_tape_worm); 13716 13717 /* Mode sense should be current */ 13718 if (un->un_mspl->media_type == 1) { 13719 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13720 "Drive has WORM media loaded\n"); 13721 wrt = WORM; 13722 } else { 13723 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13724 "Drive has non WORM media loaded\n"); 13725 wrt = RDWR; 13726 } 13727 return (wrt); 13728 } 13729 13730 #define HP_DAT_INQUIRY 0x4A 13731 static writablity 13732 st_is_hp_dat_worm(struct scsi_tape *un) 13733 { 13734 char *buf; 13735 int result; 13736 writablity wrt; 13737 13738 ST_FUNC(ST_DEVINFO, st_is_hp_dat_worm); 13739 13740 buf = kmem_zalloc(HP_DAT_INQUIRY, KM_SLEEP); 13741 13742 result = st_get_special_inquiry(un, HP_DAT_INQUIRY, buf, 0); 13743 13744 if (result != 0) { 13745 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13746 "Read Standard Inquiry for WORM support failed"); 13747 wrt = FAILED; 13748 } else if ((buf[40] & 1) == 0) { 13749 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13750 "Drive is NOT WORMable\n"); 13751 /* This drive doesn't support it so don't check again */ 13752 un->un_dp->options &= ~ST_WORMABLE; 13753 wrt = RDWR; 13754 un->un_wormable = st_is_not_wormable; 13755 } else { 13756 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13757 "Drive supports WORM version %d\n", buf[40] >> 1); 13758 un->un_wormable = st_is_hp_dat_tape_worm; 13759 wrt = un->un_wormable(un); 13760 } 13761 13762 kmem_free(buf, HP_DAT_INQUIRY); 13763 13764 /* 13765 * If drive doesn't support it no point in checking further. 13766 */ 13767 return (wrt); 13768 } 13769 13770 static writablity 13771 st_is_hp_lto_tape_worm(struct scsi_tape *un) 13772 { 13773 writablity wrt; 13774 13775 ST_FUNC(ST_DEVINFO, st_is_hp_lto_tape_worm); 13776 13777 /* Mode sense should be current */ 13778 switch (un->un_mspl->media_type) { 13779 case 0x00: 13780 switch (un->un_mspl->density) { 13781 case 0x40: 13782 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13783 "Drive has standard Gen I media loaded\n"); 13784 break; 13785 case 0x42: 13786 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13787 "Drive has standard Gen II media loaded\n"); 13788 break; 13789 case 0x44: 13790 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13791 "Drive has standard Gen III media loaded\n"); 13792 break; 13793 case 0x46: 13794 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13795 "Drive has standard Gen IV media loaded\n"); 13796 break; 13797 default: 13798 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13799 "Drive has standard unknown 0x%X media loaded\n", 13800 un->un_mspl->density); 13801 } 13802 wrt = RDWR; 13803 break; 13804 case 0x01: 13805 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13806 "Drive has WORM medium loaded\n"); 13807 wrt = WORM; 13808 break; 13809 case 0x80: 13810 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13811 "Drive has CD-ROM emulation medium loaded\n"); 13812 wrt = WORM; 13813 break; 13814 default: 13815 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13816 "Drive has an unexpected medium type 0x%X loaded\n", 13817 un->un_mspl->media_type); 13818 wrt = RDWR; 13819 } 13820 13821 return (wrt); 13822 } 13823 13824 #define LTO_REQ_INQUIRY 44 13825 static writablity 13826 st_is_hp_lto_worm(struct scsi_tape *un) 13827 { 13828 char *buf; 13829 int result; 13830 writablity wrt; 13831 13832 ST_FUNC(ST_DEVINFO, st_is_hp_lto_worm); 13833 13834 buf = kmem_zalloc(LTO_REQ_INQUIRY, KM_SLEEP); 13835 13836 result = st_get_special_inquiry(un, LTO_REQ_INQUIRY, buf, 0); 13837 13838 if (result != 0) { 13839 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13840 "Read Standard Inquiry for WORM support failed"); 13841 wrt = FAILED; 13842 } else if ((buf[40] & 1) == 0) { 13843 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13844 "Drive is NOT WORMable\n"); 13845 /* This drive doesn't support it so don't check again */ 13846 un->un_dp->options &= ~ST_WORMABLE; 13847 wrt = RDWR; 13848 un->un_wormable = st_is_not_wormable; 13849 } else { 13850 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13851 "Drive supports WORM version %d\n", buf[40] >> 1); 13852 un->un_wormable = st_is_hp_lto_tape_worm; 13853 wrt = un->un_wormable(un); 13854 } 13855 13856 kmem_free(buf, LTO_REQ_INQUIRY); 13857 13858 /* 13859 * If drive doesn't support it no point in checking further. 13860 */ 13861 return (wrt); 13862 } 13863 13864 static writablity 13865 st_is_t10_worm_device(struct scsi_tape *un) 13866 { 13867 writablity wrt; 13868 13869 ST_FUNC(ST_DEVINFO, st_is_t10_worm_device); 13870 13871 if (un->un_mspl->media_type == 0x3c) { 13872 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13873 "Drive has WORM media loaded\n"); 13874 wrt = WORM; 13875 } else { 13876 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13877 "Drive has non WORM media loaded\n"); 13878 wrt = RDWR; 13879 } 13880 return (wrt); 13881 } 13882 13883 #define SEQ_CAP_PAGE (char)0xb0 13884 static writablity 13885 st_is_t10_worm(struct scsi_tape *un) 13886 { 13887 char *buf; 13888 int result; 13889 writablity wrt; 13890 13891 ST_FUNC(ST_DEVINFO, st_is_t10_worm); 13892 13893 buf = kmem_zalloc(6, KM_SLEEP); 13894 13895 result = st_get_special_inquiry(un, 6, buf, SEQ_CAP_PAGE); 13896 13897 if (result != 0) { 13898 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13899 "Read Vitial Inquiry for Sequental Capability" 13900 " WORM support failed %x", result); 13901 wrt = FAILED; 13902 } else if ((buf[4] & 1) == 0) { 13903 ASSERT(buf[1] == SEQ_CAP_PAGE); 13904 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13905 "Drive is NOT WORMable\n"); 13906 /* This drive doesn't support it so don't check again */ 13907 un->un_dp->options &= ~ST_WORMABLE; 13908 wrt = RDWR; 13909 un->un_wormable = st_is_not_wormable; 13910 } else { 13911 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13912 "Drive supports WORM\n"); 13913 un->un_wormable = st_is_t10_worm_device; 13914 wrt = un->un_wormable(un); 13915 } 13916 13917 kmem_free(buf, 6); 13918 13919 return (wrt); 13920 } 13921 13922 13923 #define STK_REQ_SENSE 26 13924 13925 static writablity 13926 st_is_stk_worm(struct scsi_tape *un) 13927 { 13928 char cdb[CDB_GROUP0] = {SCMD_REQUEST_SENSE, 0, 0, 0, STK_REQ_SENSE, 0}; 13929 struct scsi_extended_sense *sense; 13930 struct uscsi_cmd *cmd; 13931 char *buf; 13932 int result; 13933 writablity wrt; 13934 13935 ST_FUNC(ST_DEVINFO, st_is_stk_worm); 13936 13937 cmd = kmem_zalloc(sizeof (struct uscsi_cmd), KM_SLEEP); 13938 buf = kmem_alloc(STK_REQ_SENSE, KM_SLEEP); 13939 sense = (struct scsi_extended_sense *)buf; 13940 13941 cmd->uscsi_flags = USCSI_READ; 13942 cmd->uscsi_timeout = un->un_dp->non_motion_timeout; 13943 cmd->uscsi_cdb = &cdb[0]; 13944 cmd->uscsi_bufaddr = buf; 13945 cmd->uscsi_buflen = STK_REQ_SENSE; 13946 cmd->uscsi_cdblen = CDB_GROUP0; 13947 cmd->uscsi_rqlen = 0; 13948 cmd->uscsi_rqbuf = NULL; 13949 13950 result = st_uscsi_cmd(un, cmd, FKIOCTL); 13951 13952 if (result != 0 || cmd->uscsi_status != 0) { 13953 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13954 "Request Sense for WORM failed"); 13955 wrt = RDWR; 13956 } else if (sense->es_add_len + 8 < 24) { 13957 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13958 "Drive didn't send enough sense data for WORM byte %d\n", 13959 sense->es_add_len + 8); 13960 wrt = RDWR; 13961 un->un_wormable = st_is_not_wormable; 13962 } else if ((buf[24]) & 0x02) { 13963 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13964 "Drive has WORM tape loaded\n"); 13965 wrt = WORM; 13966 un->un_wormable = st_is_stk_worm; 13967 } else { 13968 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 13969 "Drive has normal tape loaded\n"); 13970 wrt = RDWR; 13971 un->un_wormable = st_is_stk_worm; 13972 } 13973 13974 kmem_free(buf, STK_REQ_SENSE); 13975 kmem_free(cmd, sizeof (struct uscsi_cmd)); 13976 return (wrt); 13977 } 13978 13979 #define DLT_INQ_SZ 44 13980 13981 static writablity 13982 st_is_dlt_tape_worm(struct scsi_tape *un) 13983 { 13984 caddr_t buf; 13985 int result; 13986 writablity wrt; 13987 13988 ST_FUNC(ST_DEVINFO, st_is_dlt_tape_worm); 13989 13990 buf = kmem_alloc(DLT_INQ_SZ, KM_SLEEP); 13991 13992 /* Read Attribute Media Type */ 13993 13994 result = st_read_attributes(un, 0x0408, buf, 10, st_uscsi_cmd); 13995 13996 /* 13997 * If this quantum drive is attached via an HBA that cannot 13998 * support thr read attributes command return error in the 13999 * hope that someday they will support the t10 method. 14000 */ 14001 if (result == EINVAL && un->un_max_cdb_sz < CDB_GROUP4) { 14002 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 14003 "Read Attribute Command for WORM Media detection is not " 14004 "supported on the HBA that this drive is attached to."); 14005 wrt = RDWR; 14006 un->un_wormable = st_is_not_wormable; 14007 goto out; 14008 } 14009 14010 if (result != 0) { 14011 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14012 "Read Attribute Command for WORM Media returned 0x%x", 14013 result); 14014 wrt = RDWR; 14015 un->un_dp->options &= ~ST_WORMABLE; 14016 goto out; 14017 } 14018 14019 if ((uchar_t)buf[9] == 0x80) { 14020 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14021 "Drive media is WORM\n"); 14022 wrt = WORM; 14023 } else { 14024 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14025 "Drive media is not WORM Media 0x%x\n", (uchar_t)buf[9]); 14026 wrt = RDWR; 14027 } 14028 14029 out: 14030 kmem_free(buf, DLT_INQ_SZ); 14031 return (wrt); 14032 } 14033 14034 static writablity 14035 st_is_dlt_worm(struct scsi_tape *un) 14036 { 14037 caddr_t buf; 14038 int result; 14039 writablity wrt; 14040 14041 ST_FUNC(ST_DEVINFO, st_is_dlt_worm); 14042 14043 buf = kmem_alloc(DLT_INQ_SZ, KM_SLEEP); 14044 14045 result = st_get_special_inquiry(un, DLT_INQ_SZ, buf, 0xC0); 14046 14047 if (result != 0) { 14048 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14049 "Read Vendor Specific Inquiry for WORM support failed"); 14050 wrt = RDWR; 14051 goto out; 14052 } 14053 14054 if ((buf[2] & 1) == 0) { 14055 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14056 "Drive is not WORMable\n"); 14057 wrt = RDWR; 14058 un->un_dp->options &= ~ST_WORMABLE; 14059 un->un_wormable = st_is_not_wormable; 14060 goto out; 14061 } else { 14062 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14063 "Drive is WORMable\n"); 14064 un->un_wormable = st_is_dlt_tape_worm; 14065 wrt = un->un_wormable(un); 14066 } 14067 out: 14068 kmem_free(buf, DLT_INQ_SZ); 14069 14070 return (wrt); 14071 } 14072 14073 typedef struct { 14074 struct modeheader_seq header; 14075 #if defined(_BIT_FIELDS_LTOH) /* X86 */ 14076 uchar_t pagecode :6, 14077 :2; 14078 uchar_t page_len; 14079 uchar_t syslogalive :2, 14080 device :1, 14081 abs :1, 14082 ulpbot :1, 14083 prth :1, 14084 ponej :1, 14085 ait :1; 14086 uchar_t span; 14087 14088 uchar_t :6, 14089 worm :1, 14090 mic :1; 14091 uchar_t worm_cap :1, 14092 :7; 14093 uint32_t :32; 14094 #else /* SPARC */ 14095 uchar_t :2, 14096 pagecode :6; 14097 uchar_t page_len; 14098 uchar_t ait :1, 14099 device :1, 14100 abs :1, 14101 ulpbot :1, 14102 prth :1, 14103 ponej :1, 14104 syslogalive :2; 14105 uchar_t span; 14106 uchar_t mic :1, 14107 worm :1, 14108 :6; 14109 uchar_t :7, 14110 worm_cap :1; 14111 uint32_t :32; 14112 #endif 14113 }ait_dev_con; 14114 14115 #define AIT_DEV_PAGE 0x31 14116 static writablity 14117 st_is_sony_worm(struct scsi_tape *un) 14118 { 14119 int result; 14120 writablity wrt; 14121 ait_dev_con *ait_conf; 14122 14123 ST_FUNC(ST_DEVINFO, st_is_sony_worm); 14124 14125 ait_conf = kmem_zalloc(sizeof (ait_dev_con), KM_SLEEP); 14126 14127 result = st_gen_mode_sense(un, st_uscsi_cmd, AIT_DEV_PAGE, 14128 (struct seq_mode *)ait_conf, sizeof (ait_dev_con)); 14129 14130 if (result == 0) { 14131 14132 if (ait_conf->pagecode != AIT_DEV_PAGE) { 14133 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14134 "returned page 0x%x not 0x%x AIT_DEV_PAGE\n", 14135 ait_conf->pagecode, AIT_DEV_PAGE); 14136 wrt = RDWR; 14137 un->un_wormable = st_is_not_wormable; 14138 14139 } else if (ait_conf->worm_cap) { 14140 14141 un->un_wormable = st_is_sony_worm; 14142 14143 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14144 "Drives is WORMable\n"); 14145 if (ait_conf->worm) { 14146 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14147 "Media is WORM\n"); 14148 wrt = WORM; 14149 } else { 14150 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14151 "Media is not WORM\n"); 14152 wrt = RDWR; 14153 } 14154 14155 } else { 14156 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14157 "Drives not is WORMable\n"); 14158 wrt = RDWR; 14159 /* No further checking required */ 14160 un->un_dp->options &= ~ST_WORMABLE; 14161 } 14162 14163 } else { 14164 14165 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14166 "AIT device config mode sense page read command failed" 14167 " result = %d ", result); 14168 wrt = FAILED; 14169 un->un_wormable = st_is_not_wormable; 14170 } 14171 14172 kmem_free(ait_conf, sizeof (ait_dev_con)); 14173 return (wrt); 14174 } 14175 14176 static writablity 14177 st_is_drive_worm(struct scsi_tape *un) 14178 { 14179 writablity wrt; 14180 14181 ST_FUNC(ST_DEVINFO, st_is_sony_worm); 14182 14183 switch (un->un_dp->type) { 14184 case MT_ISDLT: 14185 wrt = st_is_dlt_worm(un); 14186 break; 14187 14188 case MT_ISSTK9840: 14189 wrt = st_is_stk_worm(un); 14190 break; 14191 14192 case MT_IS8MM: 14193 case MT_ISAIT: 14194 wrt = st_is_sony_worm(un); 14195 break; 14196 14197 case MT_LTO: 14198 if (strncmp("HP ", un->un_dp->vid, 3) == 0) { 14199 wrt = st_is_hp_lto_worm(un); 14200 } else { 14201 wrt = st_is_t10_worm(un); 14202 } 14203 break; 14204 14205 case MT_ISDAT: 14206 if (strncmp("HP ", un->un_dp->vid, 3) == 0) { 14207 wrt = st_is_hp_dat_worm(un); 14208 } else { 14209 wrt = st_is_t10_worm(un); 14210 } 14211 break; 14212 14213 default: 14214 wrt = FAILED; 14215 break; 14216 } 14217 14218 /* 14219 * If any of the above failed try the t10 standard method. 14220 */ 14221 if (wrt == FAILED) { 14222 wrt = st_is_t10_worm(un); 14223 } 14224 14225 /* 14226 * Unknown method for detecting WORM media. 14227 */ 14228 if (wrt == FAILED) { 14229 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14230 "Unknown method for WORM media detection\n"); 14231 wrt = RDWR; 14232 un->un_dp->options &= ~ST_WORMABLE; 14233 } 14234 14235 return (wrt); 14236 } 14237 14238 static int 14239 st_read_attributes(struct scsi_tape *un, uint16_t attribute, void *pnt, 14240 size_t size, ubufunc_t bufunc) 14241 { 14242 char cdb[CDB_GROUP4]; 14243 int result; 14244 struct uscsi_cmd *cmd; 14245 struct scsi_arq_status status; 14246 14247 caddr_t buf = (caddr_t)pnt; 14248 14249 ST_FUNC(ST_DEVINFO, st_read_attributes); 14250 14251 if (un->un_sd->sd_inq->inq_ansi < 3) { 14252 return (ENOTTY); 14253 } 14254 14255 cmd = kmem_zalloc(sizeof (struct uscsi_cmd), KM_SLEEP); 14256 14257 cdb[0] = (char)SCMD_READ_ATTRIBUTE; 14258 cdb[1] = 0; 14259 cdb[2] = 0; 14260 cdb[3] = 0; 14261 cdb[4] = 0; 14262 cdb[5] = 0; 14263 cdb[6] = 0; 14264 cdb[7] = 0; 14265 cdb[8] = (char)(attribute >> 8); 14266 cdb[9] = (char)(attribute); 14267 cdb[10] = (char)(size >> 24); 14268 cdb[11] = (char)(size >> 16); 14269 cdb[12] = (char)(size >> 8); 14270 cdb[13] = (char)(size); 14271 cdb[14] = 0; 14272 cdb[15] = 0; 14273 14274 14275 cmd->uscsi_flags = USCSI_READ | USCSI_RQENABLE | USCSI_DIAGNOSE; 14276 cmd->uscsi_timeout = un->un_dp->non_motion_timeout; 14277 cmd->uscsi_cdb = &cdb[0]; 14278 cmd->uscsi_bufaddr = (caddr_t)buf; 14279 cmd->uscsi_buflen = size; 14280 cmd->uscsi_cdblen = sizeof (cdb); 14281 cmd->uscsi_rqlen = sizeof (status); 14282 cmd->uscsi_rqbuf = (caddr_t)&status; 14283 14284 result = bufunc(un, cmd, FKIOCTL); 14285 14286 if (result != 0 || cmd->uscsi_status != 0) { 14287 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 14288 "st_read_attribute failed: result %d status %d\n", 14289 result, cmd->uscsi_status); 14290 /* 14291 * If this returns invalid operation code don't try again. 14292 */ 14293 if (un->un_sd->sd_sense->es_key == KEY_ILLEGAL_REQUEST && 14294 un->un_sd->sd_sense->es_add_code == 0x20) { 14295 result = ENOTTY; 14296 } else if (result == 0) { 14297 result = EIO; 14298 } 14299 14300 } else { 14301 14302 /* 14303 * The attribute retured should match the attribute requested. 14304 */ 14305 if (buf[4] != cdb[8] || buf[5] != cdb[9]) { 14306 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 14307 "st_read_attribute got wrong data back expected " 14308 "0x%x got 0x%x\n", attribute, buf[6] << 8 | buf[7]); 14309 st_clean_print(ST_DEVINFO, st_label, SCSI_DEBUG, 14310 "bad? data", buf, size); 14311 result = EIO; 14312 } 14313 } 14314 14315 kmem_free(cmd, sizeof (struct uscsi_cmd)); 14316 14317 return (result); 14318 } 14319 14320 static int 14321 st_get_special_inquiry(struct scsi_tape *un, uchar_t size, caddr_t dest, 14322 uchar_t page) 14323 { 14324 char cdb[CDB_GROUP0]; 14325 struct scsi_extended_sense *sense; 14326 struct uscsi_cmd *cmd; 14327 int result; 14328 14329 ST_FUNC(ST_DEVINFO, st_get_special_inquiry); 14330 14331 cdb[0] = SCMD_INQUIRY; 14332 cdb[1] = page ? 1 : 0; 14333 cdb[2] = page; 14334 cdb[3] = 0; 14335 cdb[4] = size; 14336 cdb[5] = 0; 14337 14338 cmd = kmem_zalloc(sizeof (struct uscsi_cmd), KM_SLEEP); 14339 sense = kmem_alloc(sizeof (struct scsi_extended_sense), KM_SLEEP); 14340 14341 cmd->uscsi_flags = USCSI_READ | USCSI_RQENABLE; 14342 cmd->uscsi_timeout = un->un_dp->non_motion_timeout; 14343 cmd->uscsi_cdb = &cdb[0]; 14344 cmd->uscsi_bufaddr = dest; 14345 cmd->uscsi_buflen = size; 14346 cmd->uscsi_cdblen = CDB_GROUP0; 14347 cmd->uscsi_rqlen = sizeof (struct scsi_extended_sense); 14348 cmd->uscsi_rqbuf = (caddr_t)sense; 14349 14350 result = st_uscsi_cmd(un, cmd, FKIOCTL); 14351 14352 if (result != 0 || cmd->uscsi_status != 0) { 14353 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 14354 "st_get_special_inquiry() failed for page %x", page); 14355 if (result == 0) { 14356 result = EIO; 14357 } 14358 } 14359 14360 kmem_free(sense, sizeof (struct scsi_extended_sense)); 14361 kmem_free(cmd, sizeof (struct uscsi_cmd)); 14362 14363 return (result); 14364 } 14365 14366 14367 static int 14368 st_update_block_pos(struct scsi_tape *un, bufunc_t bf, int post_space) 14369 { 14370 int rval = ENOTTY; 14371 uchar_t status = un->un_status; 14372 posmode previous_pmode = un->un_running.pmode; 14373 14374 ST_FUNC(ST_DEVINFO, st_update_block_pos); 14375 14376 while (un->un_read_pos_type != NO_POS) { 14377 rval = bf(un, SCMD_READ_POSITION, 32, SYNC_CMD); 14378 14379 /* 14380 * If read position command returned good status 14381 * Parse the data to see if the position can be interpreted. 14382 */ 14383 if ((rval == 0) && 14384 ((rval = st_interpret_read_pos(un, &un->un_pos, 14385 un->un_read_pos_type, 32, (caddr_t)un->un_read_pos_data, 14386 post_space)) == 0)) { 14387 /* 14388 * Update the running position as well if un_pos was 14389 * ok. But only if recovery is enabled. 14390 */ 14391 if (st_recov_sz != sizeof (recov_info)) { 14392 break; 14393 } 14394 rval = st_interpret_read_pos(un, &un->un_running, 14395 un->un_read_pos_type, 32, 14396 (caddr_t)un->un_read_pos_data, post_space); 14397 un->un_status = status; 14398 break; 14399 } else if (un->un_status == KEY_UNIT_ATTENTION) { 14400 un->un_running.pmode = previous_pmode; 14401 continue; 14402 } else if (un->un_status != KEY_ILLEGAL_REQUEST) { 14403 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 14404 "st_update_block_pos() read position cmd 0x%x" 14405 " returned 0x%x un_status = %d", 14406 un->un_read_pos_type, rval, un->un_status); 14407 /* ENOTTY means it read garbage. try something else. */ 14408 if (rval == ENOTTY) { 14409 rval = EIO; /* so ENOTTY is not final rval */ 14410 } else { 14411 break; 14412 } 14413 } else { 14414 ST_DEBUG4(ST_DEVINFO, st_label, CE_NOTE, 14415 "st_update_block_pos() read position cmd %x" 14416 " returned %x", un->un_read_pos_type, rval); 14417 un->un_running.pmode = previous_pmode; 14418 } 14419 14420 switch (un->un_read_pos_type) { 14421 case SHORT_POS: 14422 un->un_read_pos_type = NO_POS; 14423 break; 14424 14425 case LONG_POS: 14426 un->un_read_pos_type = EXT_POS; 14427 break; 14428 14429 case EXT_POS: 14430 un->un_read_pos_type = SHORT_POS; 14431 break; 14432 14433 default: 14434 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 14435 "Unexpected read position type 0x%x", 14436 un->un_read_pos_type); 14437 } 14438 un->un_status = KEY_NO_SENSE; 14439 } 14440 14441 return (rval); 14442 } 14443 14444 static int 14445 st_get_read_pos(struct scsi_tape *un, buf_t *bp) 14446 { 14447 int result; 14448 size_t d_sz; 14449 caddr_t pos_info; 14450 struct uscsi_cmd *cmd = (struct uscsi_cmd *)bp->b_back; 14451 14452 ST_FUNC(ST_DEVINFO, st_get_read_pos); 14453 14454 if (cmd->uscsi_bufaddr == NULL || cmd->uscsi_buflen <= 0) { 14455 return (0); 14456 } 14457 14458 if (bp_mapin_common(bp, VM_NOSLEEP) == NULL) { 14459 14460 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 14461 "bp_mapin_common() failed"); 14462 14463 return (EIO); 14464 } 14465 14466 d_sz = bp->b_bcount - bp->b_resid; 14467 if (d_sz == 0) { 14468 bp_mapout(bp); 14469 return (EIO); 14470 } 14471 14472 /* 14473 * Copy the buf to a double-word aligned memory that can hold the 14474 * tape_position_t data structure. 14475 */ 14476 if ((pos_info = kmem_alloc(d_sz, KM_NOSLEEP)) == NULL) { 14477 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 14478 "kmem_alloc() failed"); 14479 bp_mapout(bp); 14480 return (EIO); 14481 } 14482 bcopy(bp->b_un.b_addr, pos_info, d_sz); 14483 14484 #ifdef STDEBUG 14485 if ((st_debug & 0x7) > 2) { 14486 st_clean_print(ST_DEVINFO, st_label, SCSI_DEBUG, 14487 "st_get_read_pos() position info", 14488 pos_info, bp->b_bcount); 14489 } 14490 #endif 14491 14492 result = st_interpret_read_pos(un, &un->un_pos, cmd->uscsi_cdb[1], 14493 d_sz, pos_info, 0); 14494 14495 COPY_POS(&un->un_running, &un->un_pos); 14496 14497 kmem_free(pos_info, d_sz); 14498 bp_mapout(bp); 14499 14500 return (result); 14501 } 14502 14503 #if defined(_BIG_ENDIAN) 14504 14505 #define FIX_ENDIAN16(x) 14506 #define FIX_ENDIAN32(x) 14507 #define FIX_ENDIAN64(x) 14508 14509 #elif defined(_LITTLE_ENDIAN) 14510 14511 static void 14512 st_swap16(uint16_t *val) 14513 { 14514 uint16_t tmp; 14515 14516 tmp = (*val >> 8) & 0xff; 14517 tmp |= (*val << 8) & 0xff00; 14518 14519 *val = tmp; 14520 } 14521 14522 static void 14523 st_swap32(uint32_t *val) 14524 { 14525 uint32_t tmp; 14526 14527 tmp = (*val >> 24) & 0xff; 14528 tmp |= (*val >> 8) & 0xff00; 14529 tmp |= (*val << 8) & 0xff0000; 14530 tmp |= (*val << 24) & 0xff000000; 14531 14532 *val = tmp; 14533 } 14534 14535 static void 14536 st_swap64(uint64_t *val) 14537 { 14538 uint32_t low; 14539 uint32_t high; 14540 14541 low = (uint32_t)(*val); 14542 high = (uint32_t)(*val >> 32); 14543 14544 st_swap32(&low); 14545 st_swap32(&high); 14546 14547 *val = high; 14548 *val |= ((uint64_t)low << 32); 14549 } 14550 14551 #define FIX_ENDIAN16(x) st_swap16(x) 14552 #define FIX_ENDIAN32(x) st_swap32(x) 14553 #define FIX_ENDIAN64(x) st_swap64(x) 14554 #endif 14555 14556 /* 14557 * st_interpret_read_pos() 14558 * 14559 * Returns: 14560 * 0 If secsessful. 14561 * EIO If read postion responce data was unuseable or invalid. 14562 * ERANGE If the position of the drive is too large for the read_p_type. 14563 * ENOTTY If the responce data looks invalid for the read position type. 14564 */ 14565 14566 static int 14567 st_interpret_read_pos(struct scsi_tape const *un, tapepos_t *dest, 14568 read_p_types type, size_t data_sz, const caddr_t responce, int post_space) 14569 { 14570 int rval = 0; 14571 int flag = 0; 14572 tapepos_t org; 14573 14574 ST_FUNC(ST_DEVINFO, st_interpret_read_pos); 14575 14576 /* 14577 * We expect the position value to change after a space command. 14578 * So if post_space is set we don't print out what has changed. 14579 */ 14580 if ((dest != &un->un_pos) && (post_space == 0) && 14581 (st_recov_sz == sizeof (recov_info))) { 14582 COPY_POS(&org, dest); 14583 flag = 1; 14584 } 14585 14586 /* 14587 * See what kind of read position was requested. 14588 */ 14589 switch (type) { 14590 14591 case SHORT_POS: /* Short data format */ 14592 { 14593 tape_position_t *pos_info = (tape_position_t *)responce; 14594 uint32_t value; 14595 14596 /* If reserved fields are non zero don't use the data */ 14597 if (pos_info->reserved0 || pos_info->reserved1 || 14598 pos_info->reserved2[0] || pos_info->reserved2[1] || 14599 pos_info->reserved3) { 14600 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14601 "Invalid Read Short Position Data returned\n"); 14602 rval = EIO; 14603 break; 14604 } 14605 /* 14606 * Position is to large to use this type of read position. 14607 */ 14608 if (pos_info->posi_err == 1) { 14609 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14610 "Drive reported position error\n"); 14611 rval = ERANGE; 14612 break; 14613 } 14614 /* 14615 * If your at the begining of partition and end at the same 14616 * time it's very small partition or bad data. 14617 */ 14618 if (pos_info->begin_of_part && pos_info->end_of_part) { 14619 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14620 "SHORT_POS returned begin and end of" 14621 " partition\n"); 14622 rval = EIO; 14623 break; 14624 } 14625 14626 if (pos_info->blk_posi_unkwn == 0) { 14627 14628 value = pos_info->host_block; 14629 FIX_ENDIAN32(&value); 14630 14631 /* 14632 * If the tape is rewound the host blcok should be 0. 14633 */ 14634 if ((pos_info->begin_of_part == 1) && 14635 (value != 0)) { 14636 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14637 "SHORT_POS returned begin of partition" 14638 " but host block was 0x%x\n", value); 14639 rval = EIO; 14640 break; 14641 } 14642 14643 if (dest->lgclblkno != value) { 14644 if (flag) 14645 flag++; 14646 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14647 "SHORT_POS current logical 0x%"PRIx64" read" 14648 " 0x%x\n", dest->lgclblkno, value); 14649 } 14650 14651 dest->lgclblkno = (uint64_t)value; 14652 14653 /* 14654 * If the begining of partition is true and the 14655 * block number is zero we will beleive that it is 14656 * rewound. Promote the pmode to legacy. 14657 */ 14658 if ((pos_info->begin_of_part == 1) && 14659 (value == 0)) { 14660 dest->blkno = 0; 14661 dest->fileno = 0; 14662 if (dest->pmode != legacy) 14663 dest->pmode = legacy; 14664 /* 14665 * otherwise if the pmode was invalid, 14666 * promote it to logical. 14667 */ 14668 } else if (dest->pmode == invalid) { 14669 dest->pmode = logical; 14670 } 14671 14672 if (dest->partition != pos_info->partition_number) { 14673 if (flag) 14674 flag++; 14675 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14676 "SHORT_POS current partition %d read %d\n", 14677 dest->partition, 14678 pos_info->partition_number); 14679 } 14680 14681 dest->partition = pos_info->partition_number; 14682 14683 } else { 14684 dest->pmode = invalid; 14685 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14686 "Tape drive reported block position as unknown\n"); 14687 } 14688 break; 14689 } 14690 14691 case LONG_POS: /* Long data format */ 14692 { 14693 uint64_t value; 14694 tape_position_long_t *long_pos_info = 14695 (tape_position_long_t *)responce; 14696 14697 /* If reserved fields are non zero don't use the data */ 14698 if ((long_pos_info->reserved0) || 14699 (long_pos_info->reserved1) || 14700 (long_pos_info->reserved2)) { 14701 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14702 "Invalid Read Long Position Data returned\n"); 14703 rval = ENOTTY; 14704 break; 14705 } 14706 14707 /* Is position Valid */ 14708 if (long_pos_info->blk_posi_unkwn == 0) { 14709 uint32_t part; 14710 14711 value = long_pos_info->block_number; 14712 FIX_ENDIAN64(&value); 14713 14714 /* 14715 * If it says we are at the begining of partition 14716 * the block value better be 0. 14717 */ 14718 if ((long_pos_info->begin_of_part == 1) && 14719 (value != 0)) { 14720 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14721 "LONG_POS returned begin of partition but" 14722 " block number was 0x%"PRIx64"\n", value); 14723 rval = ENOTTY; 14724 break; 14725 } 14726 /* 14727 * Can't be at the start and the end of the partition 14728 * at the same time if the partition is larger the 0. 14729 */ 14730 if (long_pos_info->begin_of_part && 14731 long_pos_info->end_of_part) { 14732 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14733 "LONG_POS returned begin and end of" 14734 " partition\n"); 14735 rval = ENOTTY; 14736 break; 14737 } 14738 14739 /* 14740 * If the logical block number is not what we expected. 14741 */ 14742 if (dest->lgclblkno != value) { 14743 if (flag) 14744 flag++; 14745 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14746 "LONG_POS current logical 0x%"PRIx64 14747 " read 0x%"PRIx64"\n", 14748 dest->lgclblkno, value); 14749 } 14750 dest->lgclblkno = value; 14751 14752 /* 14753 * If the begining of partition is true and the 14754 * block number is zero we will beleive that it is 14755 * rewound. Promote the pmode to legacy. 14756 */ 14757 if ((long_pos_info->begin_of_part == 1) && 14758 (long_pos_info->block_number == 0)) { 14759 dest->blkno = 0; 14760 dest->fileno = 0; 14761 if (dest->pmode != legacy) 14762 dest->pmode = legacy; 14763 /* 14764 * otherwise if the pmode was invalid, 14765 * promote it to logical. 14766 */ 14767 } else if (dest->pmode == invalid) { 14768 dest->pmode = logical; 14769 } 14770 14771 part = long_pos_info->partition; 14772 FIX_ENDIAN32(&part); 14773 if (dest->partition != part) { 14774 if (flag) 14775 flag++; 14776 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14777 "LONG_POS current partition %d" 14778 " read %d\n", dest->partition, part); 14779 } 14780 dest->partition = part; 14781 } else { 14782 /* 14783 * If the drive doesn't know location, 14784 * we don't either. 14785 */ 14786 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14787 "Tape drive reported block position as unknown\n"); 14788 dest->pmode = invalid; 14789 } 14790 14791 /* Is file position valid */ 14792 if (long_pos_info->mrk_posi_unkwn == 0) { 14793 value = long_pos_info->file_number; 14794 FIX_ENDIAN64(&value); 14795 /* 14796 * If it says we are at the begining of partition 14797 * the block value better be 0. 14798 */ 14799 if ((long_pos_info->begin_of_part == 1) && 14800 (value != 0)) { 14801 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14802 "LONG_POS returned begin of partition but" 14803 " block number was 0x%"PRIx64"\n", value); 14804 rval = ENOTTY; 14805 break; 14806 } 14807 if (((dest->pmode == legacy) || 14808 (dest->pmode == logical)) && 14809 (dest->fileno != value)) { 14810 if (flag) 14811 flag++; 14812 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14813 "LONG_POS fileno 0x%"PRIx64 14814 " not un_pos %x\n", value, 14815 dest->fileno); 14816 } else if (dest->pmode == invalid) { 14817 dest->pmode = logical; 14818 } 14819 dest->fileno = (int32_t)value; 14820 } 14821 14822 if (dest->pmode != invalid && long_pos_info->end_of_part) { 14823 dest->eof = ST_EOT; 14824 } 14825 14826 break; 14827 } 14828 14829 case EXT_POS: /* Extended data format */ 14830 { 14831 uint64_t value; 14832 uint16_t len; 14833 tape_position_ext_t *ext_pos_info = 14834 (tape_position_ext_t *)responce; 14835 14836 /* Make sure that there is enough data there */ 14837 if (data_sz < 16) { 14838 break; 14839 } 14840 14841 /* If reserved fields are non zero don't use the data */ 14842 if (ext_pos_info->reserved0 || ext_pos_info->reserved1) { 14843 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14844 "EXT_POS reserved fields not zero\n"); 14845 rval = ENOTTY; 14846 break; 14847 } 14848 14849 /* 14850 * In the unlikely event of overflowing 64 bits of position. 14851 */ 14852 if (ext_pos_info->posi_err != 0) { 14853 rval = ERANGE; 14854 break; 14855 } 14856 14857 len = ext_pos_info->parameter_len; 14858 FIX_ENDIAN16(&len); 14859 14860 if (len != 0x1c) { 14861 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14862 "EXT_POS parameter_len should be 0x1c was 0x%x\n", 14863 len); 14864 rval = ENOTTY; 14865 break; 14866 } 14867 14868 /* Is block position information valid */ 14869 if (ext_pos_info->blk_posi_unkwn == 0) { 14870 14871 value = ext_pos_info->host_block; 14872 FIX_ENDIAN64(&value); 14873 if ((ext_pos_info->begin_of_part == 1) && 14874 (value != 0)) { 14875 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14876 "EXT_POS returned begining of partition but" 14877 " the host block was 0x%"PRIx64"\n", value); 14878 rval = ENOTTY; 14879 break; 14880 } 14881 14882 if (dest->lgclblkno != value) { 14883 if (flag) 14884 flag++; 14885 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14886 "EXT_POS current logical 0x%"PRIx64 14887 " read 0x%"PRIx64"\n", 14888 dest->lgclblkno, value); 14889 } 14890 dest->lgclblkno = value; 14891 14892 /* 14893 * If the begining of partition is true and the 14894 * block number is zero we will beleive that it is 14895 * rewound. Promote the pmode to legacy. 14896 */ 14897 if ((ext_pos_info->begin_of_part == 1) && 14898 (ext_pos_info->host_block == 0)) { 14899 dest->blkno = 0; 14900 dest->fileno = 0; 14901 if (dest->pmode != legacy) { 14902 dest->pmode = legacy; 14903 } 14904 /* 14905 * otherwise if the pmode was invalid, 14906 * promote it to logical. 14907 */ 14908 } else if (dest->pmode == invalid) { 14909 dest->pmode = logical; 14910 } 14911 14912 if (dest->partition != ext_pos_info->partition) { 14913 if (flag) 14914 flag++; 14915 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 14916 "EXT_POS current partition %d read %d\n", 14917 dest->partition, 14918 ext_pos_info->partition); 14919 } 14920 dest->partition = ext_pos_info->partition; 14921 14922 } else { 14923 dest->pmode = invalid; 14924 } 14925 break; 14926 } 14927 14928 default: 14929 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 14930 "Got unexpected SCMD_READ_POSITION type %d\n", type); 14931 rval = EIO; 14932 } 14933 14934 if ((flag > 1) && (rval == 0) && (org.pmode != invalid)) { 14935 st_print_position(ST_DEVINFO, st_label, CE_NOTE, 14936 "position read in", &org); 14937 st_print_position(ST_DEVINFO, st_label, CE_NOTE, 14938 "position read out", dest); 14939 } 14940 14941 return (rval); 14942 } 14943 14944 static int 14945 st_logical_block_locate(struct scsi_tape *un, ubufunc_t ubf, tapepos_t *pos, 14946 uint64_t lblk, uchar_t partition) 14947 { 14948 int rval; 14949 char cdb[CDB_GROUP4]; 14950 struct uscsi_cmd *cmd; 14951 struct scsi_extended_sense sense; 14952 bufunc_t bf = (ubf == st_uscsi_cmd) ? st_cmd : st_rcmd; 14953 14954 ST_FUNC(ST_DEVINFO, st_logical_block_locate); 14955 /* 14956 * Not sure what to do when doing recovery and not wanting 14957 * to update un_pos 14958 */ 14959 14960 cmd = kmem_zalloc(sizeof (struct uscsi_cmd), KM_SLEEP); 14961 14962 if (lblk <= INT32_MAX) { 14963 cmd->uscsi_cdblen = CDB_GROUP1; 14964 cdb[0] = SCMD_LOCATE; 14965 cdb[1] = pos->partition == partition ? 0 : 2; 14966 cdb[2] = 0; 14967 cdb[3] = (char)(lblk >> 24); 14968 cdb[4] = (char)(lblk >> 16); 14969 cdb[5] = (char)(lblk >> 8); 14970 cdb[6] = (char)(lblk); 14971 cdb[7] = 0; 14972 cdb[8] = partition; 14973 cdb[9] = 0; 14974 } else { 14975 /* 14976 * If the drive doesn't give a 64 bit read position data 14977 * it is unlikely it will accept 64 bit locates. 14978 */ 14979 if (un->un_read_pos_type != LONG_POS) { 14980 kmem_free(cmd, sizeof (struct uscsi_cmd)); 14981 return (ERANGE); 14982 } 14983 cmd->uscsi_cdblen = CDB_GROUP4; 14984 cdb[0] = (char)SCMD_LOCATE_G4; 14985 cdb[1] = pos->partition == partition ? 0 : 2; 14986 cdb[2] = 0; 14987 cdb[3] = partition; 14988 cdb[4] = (char)(lblk >> 56); 14989 cdb[5] = (char)(lblk >> 48); 14990 cdb[6] = (char)(lblk >> 40); 14991 cdb[7] = (char)(lblk >> 32); 14992 cdb[8] = (char)(lblk >> 24); 14993 cdb[9] = (char)(lblk >> 16); 14994 cdb[10] = (char)(lblk >> 8); 14995 cdb[11] = (char)(lblk); 14996 cdb[12] = 0; 14997 cdb[13] = 0; 14998 cdb[14] = 0; 14999 cdb[15] = 0; 15000 } 15001 15002 15003 cmd->uscsi_flags = USCSI_WRITE | USCSI_DIAGNOSE | USCSI_RQENABLE; 15004 cmd->uscsi_rqbuf = (caddr_t)&sense; 15005 cmd->uscsi_rqlen = sizeof (sense); 15006 cmd->uscsi_timeout = un->un_dp->space_timeout; 15007 cmd->uscsi_cdb = cdb; 15008 15009 rval = ubf(un, cmd, FKIOCTL); 15010 15011 pos->pmode = logical; 15012 pos->eof = ST_NO_EOF; 15013 15014 if (lblk > INT32_MAX) { 15015 /* 15016 * XXX This is a work around till we handle Descriptor format 15017 * sense data. Since we are sending a command where the standard 15018 * sense data can not correctly represent a correct residual in 15019 * 4 bytes. 15020 */ 15021 if (un->un_status == KEY_ILLEGAL_REQUEST) { 15022 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 15023 "Big LOCATE ILLEGAL_REQUEST: rval = %d\n", rval); 15024 /* Doesn't like big locate command */ 15025 un->un_status = 0; 15026 rval = ERANGE; 15027 } else if ((un->un_pos.pmode == invalid) || (rval != 0)) { 15028 /* Aborted big locate command */ 15029 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 15030 "Big LOCATE resulted in invalid pos: rval = %d\n", 15031 rval); 15032 un->un_status = 0; 15033 rval = EIO; 15034 } else if (st_update_block_pos(un, bf, 1)) { 15035 /* read position failed */ 15036 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 15037 "Big LOCATE and read pos: rval = %d\n", rval); 15038 rval = EIO; 15039 } else if (lblk > un->un_pos.lgclblkno) { 15040 /* read position worked but position was not expected */ 15041 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 15042 "Big LOCATE and recover read less then desired 0x%" 15043 PRIx64"\n", un->un_pos.lgclblkno); 15044 un->un_err_resid = lblk - un->un_pos.lgclblkno; 15045 un->un_status = KEY_BLANK_CHECK; 15046 rval = ESPIPE; 15047 } else if (lblk == un->un_pos.lgclblkno) { 15048 /* read position was what was expected */ 15049 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 15050 "Big LOCATE and recover seems to have worked\n"); 15051 un->un_err_resid = 0; 15052 rval = 0; 15053 } else { 15054 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 15055 "BIGLOCATE end up going backwards"); 15056 un->un_err_resid = lblk; 15057 rval = EIO; 15058 } 15059 15060 } else if (rval == 0) { 15061 /* Worked as requested */ 15062 pos->lgclblkno = lblk; 15063 15064 } else if (((cmd->uscsi_status & ST_STATUS_MASK) == STATUS_CHECK) && 15065 (cmd->uscsi_resid != 0)) { 15066 /* Got part way there but wasn't enough blocks on tape */ 15067 pos->lgclblkno = lblk - cmd->uscsi_resid; 15068 un->un_err_resid = cmd->uscsi_resid; 15069 un->un_status = KEY_BLANK_CHECK; 15070 rval = ESPIPE; 15071 15072 } else if (st_update_block_pos(un, bf, 1) == 0) { 15073 /* Got part way there but drive didn't tell what we missed by */ 15074 un->un_err_resid = lblk - pos->lgclblkno; 15075 un->un_status = KEY_BLANK_CHECK; 15076 rval = ESPIPE; 15077 15078 } else { 15079 scsi_log(ST_DEVINFO, st_label, SCSI_DEBUG, 15080 "Failed LOCATE and recover pos: rval = %d status = %d\n", 15081 rval, cmd->uscsi_status); 15082 un->un_err_resid = lblk; 15083 un->un_status = KEY_ILLEGAL_REQUEST; 15084 pos->pmode = invalid; 15085 rval = EIO; 15086 } 15087 15088 kmem_free(cmd, sizeof (struct uscsi_cmd)); 15089 15090 return (rval); 15091 } 15092 15093 static int 15094 st_mtfsf_ioctl(struct scsi_tape *un, int64_t files) 15095 { 15096 int rval; 15097 15098 ST_FUNC(ST_DEVINFO, st_mtfsf_ioctl); 15099 15100 15101 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15102 "st_mtfsf_ioctl: count=%"PRIx64", eof=%x\n", files, un->un_pos.eof); 15103 #if 0 15104 if ((IN_EOF(un->un_pos)) && (files == 1)) { 15105 un->un_pos.fileno++; 15106 un->un_pos.blkno = 0; 15107 return (0); 15108 } 15109 #endif 15110 /* pmode == invalid already handled */ 15111 if (un->un_pos.pmode == legacy) { 15112 /* 15113 * forward space over filemark 15114 * 15115 * For ASF we allow a count of 0 on fsf which means 15116 * we just want to go to beginning of current file. 15117 * Equivalent to "nbsf(0)" or "bsf(1) + fsf". 15118 * Allow stepping over double fmk with reel 15119 */ 15120 if ((un->un_pos.eof >= ST_EOT) && 15121 (files > 0) && 15122 ((un->un_dp->options & ST_REEL) == 0)) { 15123 /* we're at EOM */ 15124 un->un_err_resid = files; 15125 un->un_status = KEY_BLANK_CHECK; 15126 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15127 "st_mtfsf_ioctl: EIO : MTFSF at EOM"); 15128 return (EIO); 15129 } 15130 15131 /* 15132 * physical tape position may not be what we've been 15133 * telling the user; adjust the request accordingly 15134 */ 15135 if (IN_EOF(un->un_pos)) { 15136 un->un_pos.fileno++; 15137 un->un_pos.blkno = 0; 15138 /* 15139 * For positive direction case, we're now covered. 15140 * For zero or negative direction, we're covered 15141 * (almost) 15142 */ 15143 files--; 15144 } 15145 15146 } 15147 15148 if (st_check_density_or_wfm(un->un_dev, 1, B_READ, STEPBACK)) { 15149 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15150 "st_mtfsf_ioctl: EIO : MTFSF density/wfm failed"); 15151 return (EIO); 15152 } 15153 15154 15155 /* 15156 * Forward space file marks. 15157 * We leave ourselves at block zero 15158 * of the target file number. 15159 */ 15160 if (files < 0) { 15161 rval = st_backward_space_files(un, -files, 0); 15162 } else { 15163 rval = st_forward_space_files(un, files); 15164 } 15165 15166 return (rval); 15167 } 15168 15169 static int 15170 st_forward_space_files(struct scsi_tape *un, int64_t count) 15171 { 15172 int rval; 15173 15174 ST_FUNC(ST_DEVINFO, st_forward_space_files); 15175 15176 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15177 "fspace: count=%"PRIx64", eof=%x\n", count, un->un_pos.eof); 15178 15179 ASSERT(count >= 0); 15180 ASSERT(un->un_pos.pmode != invalid); 15181 15182 /* 15183 * A space with a count of zero means take me to the start of file. 15184 */ 15185 if (count == 0) { 15186 15187 /* Hay look were already there */ 15188 if (un->un_pos.pmode == legacy && un->un_pos.blkno == 0) { 15189 un->un_err_resid = 0; 15190 COPY_POS(&un->un_err_pos, &un->un_pos); 15191 return (0); 15192 } 15193 15194 /* 15195 * Well we are in the first file. 15196 * A rewind will get to the start. 15197 */ 15198 if (un->un_pos.pmode == legacy && un->un_pos.fileno == 0) { 15199 rval = st_cmd(un, SCMD_REWIND, 0, SYNC_CMD); 15200 15201 /* 15202 * Can we backspace to get there? 15203 * This should work in logical mode. 15204 */ 15205 } else if (un->un_dp->options & ST_BSF) { 15206 rval = st_space_to_begining_of_file(un); 15207 15208 /* 15209 * Can't back space but current file number is known, 15210 * So rewind and space from the begining of the partition. 15211 */ 15212 } else if (un->un_pos.pmode == legacy) { 15213 rval = st_scenic_route_to_begining_of_file(un, 15214 un->un_pos.fileno); 15215 15216 /* 15217 * pmode is logical and ST_BSF is not set. 15218 * The LONG_POS read position contains the fileno. 15219 * If the read position works, rewind and space. 15220 */ 15221 } else if (un->un_read_pos_type == LONG_POS) { 15222 rval = st_cmd(un, SCMD_READ_POSITION, 0, SYNC_CMD); 15223 if (rval) { 15224 /* 15225 * We didn't get the file position from the 15226 * read position command. 15227 * We are going to trust the drive to backspace 15228 * and then position after the filemark. 15229 */ 15230 rval = st_space_to_begining_of_file(un); 15231 } 15232 rval = st_interpret_read_pos(un, &un->un_pos, LONG_POS, 15233 32, (caddr_t)un->un_read_pos_data, 0); 15234 if ((rval) && (un->un_pos.pmode == invalid)) { 15235 rval = st_space_to_begining_of_file(un); 15236 } else { 15237 rval = st_scenic_route_to_begining_of_file(un, 15238 un->un_pos.fileno); 15239 } 15240 } else { 15241 rval = EIO; 15242 } 15243 /* 15244 * If something didn't work we are lost 15245 */ 15246 if (rval != 0) { 15247 un->un_pos.pmode = invalid; 15248 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15249 "st_mtioctop : EIO : fspace pmode invalid"); 15250 15251 rval = EIO; 15252 } 15253 15254 } else { 15255 rval = st_space_fmks(un, count); 15256 } 15257 15258 if (rval != EIO && count < 0) { 15259 /* 15260 * we came here with a count < 0; we now need 15261 * to skip back to end up before the filemark 15262 */ 15263 rval = st_backward_space_files(un, 1, 1); 15264 } 15265 15266 return (rval); 15267 } 15268 15269 static int 15270 st_scenic_route_to_begining_of_file(struct scsi_tape *un, int32_t fileno) 15271 { 15272 int rval; 15273 15274 ST_FUNC(ST_DEVINFO, st_scenic_route_to_begining_of_file); 15275 15276 if (st_cmd(un, SCMD_REWIND, 0, SYNC_CMD)) { 15277 rval = EIO; 15278 } else if (st_cmd(un, SCMD_SPACE, Fmk(fileno), SYNC_CMD)) { 15279 rval = EIO; 15280 } 15281 15282 return (rval); 15283 } 15284 15285 static int 15286 st_space_to_begining_of_file(struct scsi_tape *un) 15287 { 15288 int rval; 15289 15290 ST_FUNC(ST_DEVINFO, st_space_to_begining_of_file); 15291 15292 /* 15293 * Back space of the file at the begining of the file. 15294 */ 15295 rval = st_cmd(un, SCMD_SPACE, Fmk(-1), SYNC_CMD); 15296 if (rval) { 15297 rval = EIO; 15298 return (rval); 15299 } 15300 15301 /* 15302 * Other interesting answers might be crashed BOT which isn't bad. 15303 */ 15304 if (un->un_status == SUN_KEY_BOT) { 15305 return (rval); 15306 } 15307 15308 un->un_running.pmode = invalid; 15309 15310 /* 15311 * Now we are on the BOP side of the filemark. Forward space to 15312 * the EOM side and we are at the begining of the file. 15313 */ 15314 rval = st_cmd(un, SCMD_SPACE, Fmk(1), SYNC_CMD); 15315 if (rval) { 15316 rval = EIO; 15317 } 15318 15319 return (rval); 15320 } 15321 15322 static int 15323 st_mtfsr_ioctl(struct scsi_tape *un, int64_t count) 15324 { 15325 15326 ST_FUNC(ST_DEVINFO, st_mtfsr_ioctl); 15327 15328 /* 15329 * forward space to inter-record gap 15330 * 15331 */ 15332 15333 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15334 "st_ioctl_fsr: count=%"PRIx64", eof=%x\n", count, un->un_pos.eof); 15335 15336 if (un->un_pos.pmode == legacy) { 15337 /* 15338 * If were are at end of tape and count is forward. 15339 * Return blank check. 15340 */ 15341 if ((un->un_pos.eof >= ST_EOT) && (count > 0)) { 15342 /* we're at EOM */ 15343 un->un_err_resid = count; 15344 un->un_status = KEY_BLANK_CHECK; 15345 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15346 "st_mtfsr_ioctl: EIO : MTFSR eof > ST_EOT"); 15347 return (EIO); 15348 } 15349 15350 /* 15351 * If count is zero there is nothing to do. 15352 */ 15353 if (count == 0) { 15354 un->un_err_pos.fileno = un->un_pos.fileno; 15355 un->un_err_pos.blkno = un->un_pos.blkno; 15356 un->un_err_resid = 0; 15357 if (IN_EOF(un->un_pos) && SVR4_BEHAVIOR) { 15358 un->un_status = SUN_KEY_EOF; 15359 } 15360 return (0); 15361 } 15362 15363 /* 15364 * physical tape position may not be what we've been 15365 * telling the user; adjust the position accordingly 15366 */ 15367 if (IN_EOF(un->un_pos)) { 15368 daddr_t blkno = un->un_pos.blkno; 15369 int fileno = un->un_pos.fileno; 15370 15371 optype lastop = un->un_lastop; 15372 if (st_cmd(un, SCMD_SPACE, Fmk(-1), SYNC_CMD) 15373 == -1) { 15374 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15375 "st_mtfsr_ioctl:EIO:MTFSR count && IN_EOF"); 15376 return (EIO); 15377 } 15378 15379 un->un_pos.blkno = blkno; 15380 un->un_pos.fileno = fileno; 15381 un->un_lastop = lastop; 15382 } 15383 } 15384 15385 if (st_check_density_or_wfm(un->un_dev, 1, B_READ, STEPBACK)) { 15386 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15387 "st_mtfsr_ioctl: EIO : MTFSR st_check_den"); 15388 return (EIO); 15389 } 15390 15391 return (st_space_records(un, count)); 15392 } 15393 15394 static int 15395 st_space_records(struct scsi_tape *un, int64_t count) 15396 { 15397 int64_t dblk; 15398 int rval = 0; 15399 15400 ST_FUNC(ST_DEVINFO, st_space_records); 15401 15402 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15403 "st_space_records: count=%"PRIx64", eof=%x\n", 15404 count, un->un_pos.eof); 15405 15406 if (un->un_pos.pmode == logical) { 15407 rval = st_cmd(un, SCMD_SPACE, Blk(count), SYNC_CMD); 15408 if (rval != 0) { 15409 rval = EIO; 15410 } 15411 return (rval); 15412 } 15413 15414 dblk = count + un->un_pos.blkno; 15415 15416 /* Already there */ 15417 if (dblk == un->un_pos.blkno) { 15418 un->un_err_resid = 0; 15419 COPY_POS(&un->un_err_pos, &un->un_pos); 15420 return (0); 15421 } 15422 15423 /* 15424 * If the destination block is forward 15425 * or the drive will backspace records. 15426 */ 15427 if (un->un_pos.blkno < dblk || (un->un_dp->options & ST_BSR)) { 15428 /* 15429 * If we're spacing forward, or the device can 15430 * backspace records, we can just use the SPACE 15431 * command. 15432 */ 15433 dblk -= un->un_pos.blkno; 15434 if (st_cmd(un, SCMD_SPACE, Blk(dblk), SYNC_CMD)) { 15435 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15436 "st_space_records:EIO:space_records can't spc"); 15437 rval = EIO; 15438 } else if (un->un_pos.eof >= ST_EOF_PENDING) { 15439 /* 15440 * check if we hit BOT/EOT 15441 */ 15442 if (dblk < 0 && un->un_pos.eof == ST_EOM) { 15443 un->un_status = SUN_KEY_BOT; 15444 un->un_pos.eof = ST_NO_EOF; 15445 } else if (dblk < 0 && 15446 un->un_pos.eof == ST_EOF_PENDING) { 15447 int residue = un->un_err_resid; 15448 /* 15449 * we skipped over a filemark 15450 * and need to go forward again 15451 */ 15452 if (st_cmd(un, SCMD_SPACE, Fmk(1), SYNC_CMD)) { 15453 ST_DEBUG2(ST_DEVINFO, st_label, 15454 SCSI_DEBUG, "st_space_records: EIO" 15455 " : can't space #2"); 15456 rval = EIO; 15457 } 15458 un->un_err_resid = residue; 15459 } 15460 if (rval == 0) { 15461 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15462 "st_space_records: EIO : space_rec rval" 15463 " == 0"); 15464 rval = EIO; 15465 } 15466 } 15467 } else { 15468 /* 15469 * else we rewind, space forward across filemarks to 15470 * the desired file, and then space records to the 15471 * desired block. 15472 */ 15473 15474 int dfile = un->un_pos.fileno; /* save current file */ 15475 15476 if (dblk < 0) { 15477 /* 15478 * Wups - we're backing up over a filemark 15479 */ 15480 if (un->un_pos.blkno != 0 && 15481 (st_cmd(un, SCMD_REWIND, 0, SYNC_CMD) || 15482 st_cmd(un, SCMD_SPACE, Fmk(dfile), SYNC_CMD))) { 15483 un->un_pos.pmode = invalid; 15484 } 15485 un->un_err_resid = -dblk; 15486 if (un->un_pos.fileno == 0 && un->un_pos.blkno == 0) { 15487 un->un_status = SUN_KEY_BOT; 15488 un->un_pos.eof = ST_NO_EOF; 15489 } else if (un->un_pos.fileno > 0) { 15490 un->un_status = SUN_KEY_EOF; 15491 un->un_pos.eof = ST_NO_EOF; 15492 } 15493 COPY_POS(&un->un_err_pos, &un->un_pos); 15494 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15495 "st_space_records:EIO:space_records : dblk < 0"); 15496 rval = EIO; 15497 } else if (st_cmd(un, SCMD_REWIND, 0, SYNC_CMD) || 15498 st_cmd(un, SCMD_SPACE, Fmk(dfile), SYNC_CMD) || 15499 st_cmd(un, SCMD_SPACE, Blk(dblk), SYNC_CMD)) { 15500 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15501 "st_space_records: EIO :space_records : rewind " 15502 "and space failed"); 15503 un->un_pos.pmode = invalid; 15504 rval = EIO; 15505 } 15506 } 15507 15508 return (rval); 15509 } 15510 15511 static int 15512 st_mtbsf_ioctl(struct scsi_tape *un, int64_t files) 15513 { 15514 ST_FUNC(ST_DEVINFO, st_mtbsf_ioctl); 15515 15516 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15517 "st_mtbsf_ioctl: count=%"PRIx64", eof=%x\n", files, un->un_pos.eof); 15518 /* 15519 * backward space of file filemark (1/2" and 8mm) 15520 * tape position will end on the beginning of tape side 15521 * of the desired file mark 15522 */ 15523 if ((un->un_dp->options & ST_BSF) == 0) { 15524 return (ENOTTY); 15525 } 15526 15527 if (un->un_pos.pmode == legacy) { 15528 15529 /* 15530 * If a negative count (which implies a forward space op) 15531 * is specified, and we're at logical or physical eot, 15532 * bounce the request. 15533 */ 15534 15535 if (un->un_pos.eof >= ST_EOT && files < 0) { 15536 un->un_err_resid = files; 15537 un->un_status = SUN_KEY_EOT; 15538 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15539 "st_ioctl_mt_bsf : EIO : MTBSF : eof > ST_EOF"); 15540 return (EIO); 15541 } 15542 /* 15543 * physical tape position may not be what we've been 15544 * telling the user; adjust the request accordingly 15545 */ 15546 if (IN_EOF(un->un_pos)) { 15547 un->un_pos.fileno++; 15548 un->un_pos.blkno = 0; 15549 files++; 15550 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15551 "st_mtbsf_ioctl in eof: count=%"PRIx64", op=%x\n", 15552 files, MTBSF); 15553 15554 } 15555 } 15556 15557 if (st_check_density_or_wfm(un->un_dev, 1, 0, STEPBACK)) { 15558 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15559 "st_ioctl : EIO : MTBSF : check den wfm"); 15560 return (EIO); 15561 } 15562 15563 if (files <= 0) { 15564 /* 15565 * for a negative count, we need to step forward 15566 * first and then step back again 15567 */ 15568 files = -files + 1; 15569 return (st_forward_space_files(un, files)); 15570 } 15571 return (st_backward_space_files(un, files, 1)); 15572 } 15573 15574 static int 15575 st_backward_space_files(struct scsi_tape *un, int64_t count, int infront) 15576 { 15577 int64_t end_fileno; 15578 int64_t skip_cnt; 15579 int rval = 0; 15580 15581 ST_FUNC(ST_DEVINFO, st_backward_space_files); 15582 15583 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15584 "st_backward_space_files: count=%"PRIx64" eof=%x\n", 15585 count, un->un_pos.eof); 15586 /* 15587 * Backspace files (MTNBSF): infront == 0 15588 * 15589 * For tapes that can backspace, backspace 15590 * count+1 filemarks and then run forward over 15591 * a filemark 15592 * 15593 * For tapes that can't backspace, 15594 * calculate desired filenumber 15595 * (un->un_pos.fileno - count), rewind, 15596 * and then space forward this amount 15597 * 15598 * Backspace filemarks (MTBSF) infront == 1 15599 * 15600 * For tapes that can backspace, backspace count 15601 * filemarks 15602 * 15603 * For tapes that can't backspace, calculate 15604 * desired filenumber (un->un_pos.fileno - count), 15605 * add 1, rewind, space forward this amount, 15606 * and mark state as ST_EOF_PENDING appropriately. 15607 */ 15608 15609 if (un->un_pos.pmode == logical) { 15610 15611 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15612 "st_backward_space_files: mt_op=%x count=%"PRIx64 15613 "lgclblkno=%"PRIx64"\n", infront?MTBSF:MTNBSF, count, 15614 un->un_pos.lgclblkno); 15615 15616 15617 /* In case a drive that won't back space gets in logical mode */ 15618 if ((un->un_dp->options & ST_BSF) == 0) { 15619 rval = EIO; 15620 return (rval); 15621 } 15622 if ((infront == 1) && 15623 (st_cmd(un, SCMD_SPACE, Fmk(-count), SYNC_CMD))) { 15624 rval = EIO; 15625 return (rval); 15626 } else if ((infront == 0) && 15627 (st_cmd(un, SCMD_SPACE, Fmk((-count)-1), SYNC_CMD)) && 15628 (st_cmd(un, SCMD_SPACE, Fmk(1), SYNC_CMD))) { 15629 rval = EIO; 15630 return (rval); 15631 } 15632 return (rval); 15633 } 15634 15635 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15636 "st_backward_space_files: mt_op=%x count=%"PRIx64 15637 "fileno=%x blkno=%x\n", 15638 infront?MTBSF:MTNBSF, count, un->un_pos.fileno, un->un_pos.blkno); 15639 15640 15641 15642 /* 15643 * Handle the simple case of BOT 15644 * playing a role in these cmds. 15645 * We do this by calculating the 15646 * ending file number. If the ending 15647 * file is < BOT, rewind and set an 15648 * error and mark resid appropriately. 15649 * If we're backspacing a file (not a 15650 * filemark) and the target file is 15651 * the first file on the tape, just 15652 * rewind. 15653 */ 15654 15655 /* figure expected destination of this SPACE command */ 15656 end_fileno = un->un_pos.fileno - count; 15657 15658 /* 15659 * Would the end effect of this SPACE be the same as rewinding? 15660 * If so just rewind instead. 15661 */ 15662 if ((infront != 0) && (end_fileno < 0) || 15663 (infront == 0) && (end_fileno <= 0)) { 15664 if (st_cmd(un, SCMD_REWIND, 0, SYNC_CMD)) { 15665 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15666 "st_backward_space_files: EIO : " 15667 "rewind in lou of BSF failed\n"); 15668 rval = EIO; 15669 } 15670 if (end_fileno < 0) { 15671 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15672 "st_backward_space_files: EIO : " 15673 "back space file greater then fileno\n"); 15674 rval = EIO; 15675 un->un_err_resid = -end_fileno; 15676 un->un_status = SUN_KEY_BOT; 15677 } 15678 return (rval); 15679 } 15680 15681 if (un->un_dp->options & ST_BSF) { 15682 skip_cnt = 1 - infront; 15683 /* 15684 * If we are going to end up at the beginning 15685 * of the file, we have to space one extra file 15686 * first, and then space forward later. 15687 */ 15688 end_fileno = -(count + skip_cnt); 15689 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 15690 "skip_cnt=%"PRIx64", tmp=%"PRIx64"\n", 15691 skip_cnt, end_fileno); 15692 if (st_cmd(un, SCMD_SPACE, Fmk(end_fileno), SYNC_CMD)) { 15693 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15694 "st_backward_space_files:EIO:back space fm failed"); 15695 rval = EIO; 15696 } 15697 } else { 15698 if (st_cmd(un, SCMD_REWIND, 0, SYNC_CMD)) { 15699 rval = EIO; 15700 } else { 15701 skip_cnt = end_fileno + infront; 15702 } 15703 } 15704 15705 /* 15706 * If we have to space forward, do so... 15707 */ 15708 ST_DEBUG6(ST_DEVINFO, st_label, SCSI_DEBUG, 15709 "space forward skip_cnt=%"PRIx64", rval=%x\n", skip_cnt, rval); 15710 15711 if (rval == 0 && skip_cnt) { 15712 if (st_cmd(un, SCMD_SPACE, Fmk(skip_cnt), SYNC_CMD)) { 15713 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15714 "st_backward_space_files:EIO:space fm skip count"); 15715 rval = EIO; 15716 } else if (infront) { 15717 /* 15718 * If we had to space forward, and we're 15719 * not a tape that can backspace, mark state 15720 * as if we'd just seen a filemark during a 15721 * a read. 15722 */ 15723 if ((un->un_dp->options & ST_BSF) == 0) { 15724 un->un_pos.eof = ST_EOF_PENDING; 15725 un->un_pos.fileno -= 1; 15726 un->un_pos.blkno = LASTBLK; 15727 un->un_running.pmode = invalid; 15728 } 15729 } 15730 } 15731 15732 if (rval != 0) { 15733 un->un_pos.pmode = invalid; 15734 } 15735 15736 return (rval); 15737 } 15738 15739 static int 15740 st_mtnbsf_ioctl(struct scsi_tape *un, int64_t count) 15741 { 15742 int rval; 15743 15744 ST_FUNC(ST_DEVINFO, st_mtnbsf_ioctl); 15745 15746 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15747 "nbsf: count=%"PRIx64", eof=%x\n", count, un->un_pos.eof); 15748 15749 if (un->un_pos.pmode == legacy) { 15750 /* 15751 * backward space file to beginning of file 15752 * 15753 * If a negative count (which implies a forward space op) 15754 * is specified, and we're at logical or physical eot, 15755 * bounce the request. 15756 */ 15757 15758 if (un->un_pos.eof >= ST_EOT && count < 0) { 15759 un->un_err_resid = count; 15760 un->un_status = SUN_KEY_EOT; 15761 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15762 "st_ioctl : EIO : > EOT and count < 0"); 15763 return (EIO); 15764 } 15765 /* 15766 * physical tape position may not be what we've been 15767 * telling the user; adjust the request accordingly 15768 */ 15769 if (IN_EOF(un->un_pos)) { 15770 un->un_pos.fileno++; 15771 un->un_pos.blkno = 0; 15772 count++; 15773 } 15774 } 15775 15776 if (st_check_density_or_wfm(un->un_dev, 1, 0, STEPBACK)) { 15777 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15778 "st_ioctl : EIO : MTNBSF check den and wfm"); 15779 return (EIO); 15780 } 15781 15782 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15783 "mtnbsf: count=%"PRIx64", eof=%x\n", count, un->un_pos.eof); 15784 15785 if (count <= 0) { 15786 rval = st_forward_space_files(un, -count); 15787 } else { 15788 rval = st_backward_space_files(un, count, 0); 15789 } 15790 return (rval); 15791 } 15792 15793 static int 15794 st_mtbsr_ioctl(struct scsi_tape *un, int64_t num) 15795 { 15796 ST_FUNC(ST_DEVINFO, st_mtbsr_ioctl); 15797 15798 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 15799 "bsr: count=%"PRIx64", eof=%x\n", num, un->un_pos.eof); 15800 15801 if (un->un_pos.pmode == legacy) { 15802 /* 15803 * backward space into inter-record gap 15804 * 15805 * If a negative count (which implies a forward space op) 15806 * is specified, and we're at logical or physical eot, 15807 * bounce the request. 15808 */ 15809 if (un->un_pos.eof >= ST_EOT && num < 0) { 15810 un->un_err_resid = num; 15811 un->un_status = SUN_KEY_EOT; 15812 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15813 "st_ioctl : EIO : MTBSR > EOT"); 15814 return (EIO); 15815 } 15816 15817 if (num == 0) { 15818 COPY_POS(&un->un_err_pos, &un->un_pos); 15819 un->un_err_resid = 0; 15820 if (IN_EOF(un->un_pos) && SVR4_BEHAVIOR) { 15821 un->un_status = SUN_KEY_EOF; 15822 } 15823 return (0); 15824 } 15825 15826 /* 15827 * physical tape position may not be what we've been 15828 * telling the user; adjust the position accordingly. 15829 * bsr can not skip filemarks and continue to skip records 15830 * therefore if we are logically before the filemark but 15831 * physically at the EOT side of the filemark, we need to step 15832 * back; this allows fsr N where N > number of blocks in file 15833 * followed by bsr 1 to position at the beginning of last block 15834 */ 15835 if (IN_EOF(un->un_pos)) { 15836 tapepos_t save; 15837 optype lastop = un->un_lastop; 15838 15839 COPY_POS(&save, &un->un_pos); 15840 if (st_cmd(un, SCMD_SPACE, Fmk(-1), SYNC_CMD) == -1) { 15841 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15842 "st_mtbsr_ioctl: EIO : MTBSR can't space"); 15843 return (EIO); 15844 } 15845 15846 COPY_POS(&un->un_pos, &save); 15847 un->un_lastop = lastop; 15848 } 15849 } 15850 15851 un->un_pos.eof = ST_NO_EOF; 15852 15853 if (st_check_density_or_wfm(un->un_dev, 1, 0, STEPBACK)) { 15854 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15855 "st_ioctl : EIO : MTBSR : can't set density or wfm"); 15856 return (EIO); 15857 } 15858 15859 num = -num; 15860 return (st_space_records(un, num)); 15861 } 15862 15863 static int 15864 st_mtfsfm_ioctl(struct scsi_tape *un, int64_t cnt) 15865 { 15866 int rval; 15867 15868 ST_FUNC(ST_DEVINFO, st_mtfsfm_ioctl); 15869 15870 rval = st_cmd(un, SCMD_SPACE, SPACE(SP_SQFLM, cnt), SYNC_CMD); 15871 if (rval == 0) { 15872 un->un_pos.pmode = logical; 15873 } else if ((un->un_status == KEY_ILLEGAL_REQUEST) && 15874 (un->un_sd->sd_sense->es_add_code == 0x24)) { 15875 /* 15876 * Drive says invalid field in cdb. 15877 * Doesn't like space multiple. Position isn't lost. 15878 */ 15879 un->un_err_resid = cnt; 15880 un->un_status = 0; 15881 rval = ENOTTY; 15882 } else { 15883 un->un_err_resid = cnt; 15884 un->un_pos.pmode = invalid; 15885 } 15886 return (rval); 15887 } 15888 15889 static int 15890 st_mtbsfm_ioctl(struct scsi_tape *un, int64_t cnt) 15891 { 15892 int rval; 15893 15894 ST_FUNC(ST_DEVINFO, st_mtbsfm_ioctl); 15895 15896 rval = st_cmd(un, SCMD_SPACE, SPACE(SP_SQFLM, -cnt), SYNC_CMD); 15897 if (rval == 0) { 15898 un->un_pos.pmode = logical; 15899 } else if ((un->un_status == KEY_ILLEGAL_REQUEST) && 15900 (un->un_sd->sd_sense->es_add_code == 0x24)) { 15901 /* 15902 * Drive says invalid field in cdb. 15903 * Doesn't like space multiple. Position isn't lost. 15904 */ 15905 un->un_err_resid = cnt; 15906 un->un_status = 0; 15907 rval = ENOTTY; 15908 } else { 15909 un->un_err_resid = cnt; 15910 un->un_pos.pmode = invalid; 15911 } 15912 return (rval); 15913 } 15914 15915 #ifdef __x86 15916 15917 /* 15918 * release contig_mem and wake up waiting thread, if any 15919 */ 15920 static void 15921 st_release_contig_mem(struct scsi_tape *un, struct contig_mem *cp) 15922 { 15923 mutex_enter(ST_MUTEX); 15924 15925 ST_FUNC(ST_DEVINFO, st_release_contig_mem); 15926 15927 cp->cm_next = un->un_contig_mem; 15928 un->un_contig_mem = cp; 15929 un->un_contig_mem_available_num++; 15930 cv_broadcast(&un->un_contig_mem_cv); 15931 15932 mutex_exit(ST_MUTEX); 15933 } 15934 15935 /* 15936 * St_get_contig_mem will return a contig_mem if there is one available 15937 * in current system. Otherwise, it will try to alloc one, if the total 15938 * number of contig_mem is within st_max_contig_mem_num. 15939 * It will sleep, if allowed by caller or return NULL, if no contig_mem 15940 * is available for now. 15941 */ 15942 static struct contig_mem * 15943 st_get_contig_mem(struct scsi_tape *un, size_t len, int alloc_flags) 15944 { 15945 size_t rlen; 15946 struct contig_mem *cp = NULL; 15947 ddi_acc_handle_t acc_hdl; 15948 caddr_t addr; 15949 int big_enough = 0; 15950 int (*dma_alloc_cb)() = (alloc_flags == KM_SLEEP) ? 15951 DDI_DMA_SLEEP : DDI_DMA_DONTWAIT; 15952 15953 /* Try to get one available contig_mem */ 15954 mutex_enter(ST_MUTEX); 15955 15956 ST_FUNC(ST_DEVINFO, st_get_contig_mem); 15957 15958 if (un->un_contig_mem_available_num > 0) { 15959 ST_GET_CONTIG_MEM_HEAD(un, cp, len, big_enough); 15960 } else if (un->un_contig_mem_total_num < st_max_contig_mem_num) { 15961 /* 15962 * we failed to get one. we're going to 15963 * alloc one more contig_mem for this I/O 15964 */ 15965 mutex_exit(ST_MUTEX); 15966 cp = (struct contig_mem *)kmem_zalloc( 15967 sizeof (struct contig_mem) + biosize(), 15968 alloc_flags); 15969 if (cp == NULL) { 15970 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15971 "alloc contig_mem failure\n"); 15972 return (NULL); /* cannot get one */ 15973 } 15974 cp->cm_bp = (struct buf *) 15975 (((caddr_t)cp) + sizeof (struct contig_mem)); 15976 bioinit(cp->cm_bp); 15977 mutex_enter(ST_MUTEX); 15978 un->un_contig_mem_total_num++; /* one more available */ 15979 } else { 15980 /* 15981 * we failed to get one and we're NOT allowed to 15982 * alloc more contig_mem 15983 */ 15984 if (alloc_flags == KM_SLEEP) { 15985 while (un->un_contig_mem_available_num <= 0) { 15986 cv_wait(&un->un_contig_mem_cv, ST_MUTEX); 15987 } 15988 ST_GET_CONTIG_MEM_HEAD(un, cp, len, big_enough); 15989 } else { 15990 mutex_exit(ST_MUTEX); 15991 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 15992 "alloc contig_mem failure\n"); 15993 return (NULL); /* cannot get one */ 15994 } 15995 } 15996 mutex_exit(ST_MUTEX); 15997 15998 /* We need to check if this block of mem is big enough for this I/O */ 15999 if (cp->cm_len < len) { 16000 /* not big enough, need to alloc a new one */ 16001 if (ddi_dma_mem_alloc(un->un_contig_mem_hdl, len, &st_acc_attr, 16002 DDI_DMA_STREAMING, dma_alloc_cb, NULL, 16003 &addr, &rlen, &acc_hdl) != DDI_SUCCESS) { 16004 ST_DEBUG2(ST_DEVINFO, st_label, SCSI_DEBUG, 16005 "alloc contig_mem failure: not enough mem\n"); 16006 st_release_contig_mem(un, cp); 16007 cp = NULL; 16008 } else { 16009 if (cp->cm_addr) { 16010 /* release previous one before attach new one */ 16011 ddi_dma_mem_free(&cp->cm_acc_hdl); 16012 } 16013 mutex_enter(ST_MUTEX); 16014 un->un_max_contig_mem_len = 16015 un->un_max_contig_mem_len >= len ? 16016 un->un_max_contig_mem_len : len; 16017 mutex_exit(ST_MUTEX); 16018 16019 /* attach new mem to this cp */ 16020 cp->cm_addr = addr; 16021 cp->cm_acc_hdl = acc_hdl; 16022 cp->cm_len = len; 16023 16024 goto alloc_ok; /* get one usable cp */ 16025 } 16026 } else { 16027 goto alloc_ok; /* get one usable cp */ 16028 } 16029 16030 /* cannot find/alloc a usable cp, when we get here */ 16031 16032 mutex_enter(ST_MUTEX); 16033 if ((un->un_max_contig_mem_len < len) || 16034 (alloc_flags != KM_SLEEP)) { 16035 mutex_exit(ST_MUTEX); 16036 return (NULL); 16037 } 16038 16039 /* 16040 * we're allowed to sleep, and there is one big enough 16041 * contig mem in the system, which is currently in use, 16042 * wait for it... 16043 */ 16044 big_enough = 1; 16045 do { 16046 cv_wait(&un->un_contig_mem_cv, ST_MUTEX); 16047 ST_GET_CONTIG_MEM_HEAD(un, cp, len, big_enough); 16048 } while (cp == NULL); 16049 mutex_exit(ST_MUTEX); 16050 16051 /* we get the big enough contig mem, finally */ 16052 16053 alloc_ok: 16054 /* init bp attached to this cp */ 16055 bioreset(cp->cm_bp); 16056 cp->cm_bp->b_un.b_addr = cp->cm_addr; 16057 cp->cm_bp->b_private = (void *)cp; 16058 16059 return (cp); 16060 } 16061 16062 /* 16063 * this is the biodone func for the bp used in big block I/O 16064 */ 16065 static int 16066 st_bigblk_xfer_done(struct buf *bp) 16067 { 16068 struct contig_mem *cp; 16069 struct buf *orig_bp; 16070 int ioerr; 16071 struct scsi_tape *un; 16072 16073 /* sanity check */ 16074 if (bp == NULL) { 16075 return (DDI_FAILURE); 16076 } 16077 16078 un = ddi_get_soft_state(st_state, MTUNIT(bp->b_edev)); 16079 if (un == NULL) { 16080 return (DDI_FAILURE); 16081 } 16082 16083 ST_FUNC(ST_DEVINFO, st_bigblk_xfer_done); 16084 16085 cp = (struct contig_mem *)bp->b_private; 16086 orig_bp = cp->cm_bp; /* get back the bp we have replaced */ 16087 cp->cm_bp = bp; 16088 16089 /* special handling for special I/O */ 16090 if (cp->cm_use_sbuf) { 16091 #ifndef __lock_lint 16092 ASSERT(un->un_sbuf_busy); 16093 #endif 16094 un->un_sbufp = orig_bp; 16095 cp->cm_use_sbuf = 0; 16096 } 16097 16098 orig_bp->b_resid = bp->b_resid; 16099 ioerr = geterror(bp); 16100 if (ioerr != 0) { 16101 bioerror(orig_bp, ioerr); 16102 } else if (orig_bp->b_flags & B_READ) { 16103 /* copy data back to original bp */ 16104 (void) bp_copyout(bp->b_un.b_addr, orig_bp, 0, 16105 bp->b_bcount - bp->b_resid); 16106 } 16107 16108 st_release_contig_mem(un, cp); 16109 16110 biodone(orig_bp); 16111 16112 return (DDI_SUCCESS); 16113 } 16114 16115 /* 16116 * We use this func to replace original bp that may not be able to do I/O 16117 * in big block size with one that can 16118 */ 16119 static struct buf * 16120 st_get_bigblk_bp(struct buf *bp) 16121 { 16122 struct contig_mem *cp; 16123 struct scsi_tape *un; 16124 struct buf *cont_bp; 16125 16126 un = ddi_get_soft_state(st_state, MTUNIT(bp->b_edev)); 16127 if (un == NULL) { 16128 return (bp); 16129 } 16130 16131 ST_FUNC(ST_DEVINFO, st_get_bigblk_bp); 16132 16133 /* try to get one contig_mem */ 16134 cp = st_get_contig_mem(un, bp->b_bcount, KM_SLEEP); 16135 if (!cp) { 16136 scsi_log(ST_DEVINFO, st_label, CE_WARN, 16137 "Cannot alloc contig buf for I/O for %lu blk size", 16138 bp->b_bcount); 16139 return (bp); 16140 } 16141 cont_bp = cp->cm_bp; 16142 cp->cm_bp = bp; 16143 16144 /* make sure that we "are" using un_sbufp for special I/O */ 16145 if (bp == un->un_sbufp) { 16146 #ifndef __lock_lint 16147 ASSERT(un->un_sbuf_busy); 16148 #endif 16149 un->un_sbufp = cont_bp; 16150 cp->cm_use_sbuf = 1; 16151 } 16152 16153 /* clone bp */ 16154 cont_bp->b_bcount = bp->b_bcount; 16155 cont_bp->b_resid = bp->b_resid; 16156 cont_bp->b_iodone = st_bigblk_xfer_done; 16157 cont_bp->b_file = bp->b_file; 16158 cont_bp->b_offset = bp->b_offset; 16159 cont_bp->b_dip = bp->b_dip; 16160 cont_bp->b_error = 0; 16161 cont_bp->b_proc = NULL; 16162 cont_bp->b_flags = bp->b_flags & ~(B_PAGEIO | B_PHYS | B_SHADOW); 16163 cont_bp->b_shadow = NULL; 16164 cont_bp->b_pages = NULL; 16165 cont_bp->b_edev = bp->b_edev; 16166 cont_bp->b_dev = bp->b_dev; 16167 cont_bp->b_lblkno = bp->b_lblkno; 16168 cont_bp->b_forw = bp->b_forw; 16169 cont_bp->b_back = bp->b_back; 16170 cont_bp->av_forw = bp->av_forw; 16171 cont_bp->av_back = bp->av_back; 16172 cont_bp->b_bufsize = bp->b_bufsize; 16173 16174 /* get data in original bp */ 16175 if (bp->b_flags & B_WRITE) { 16176 (void) bp_copyin(bp, cont_bp->b_un.b_addr, 0, bp->b_bcount); 16177 } 16178 16179 return (cont_bp); 16180 } 16181 #else 16182 #ifdef __lock_lint 16183 static int 16184 st_bigblk_xfer_done(struct buf *bp) 16185 { 16186 return (0); 16187 } 16188 #endif 16189 #endif 16190 16191 static const char *eof_status[] = 16192 { 16193 "NO_EOF", 16194 "EOF_PENDING", 16195 "EOF", 16196 "EOT_PENDING", 16197 "EOT", 16198 "EOM", 16199 "AFTER_EOM" 16200 }; 16201 static const char *mode[] = { 16202 "invalid", 16203 "legacy", 16204 "logical" 16205 }; 16206 16207 static void 16208 st_print_position(dev_info_t *dev, char *label, uint_t level, 16209 const char *comment, tapepos_t *pos) 16210 { 16211 ST_FUNC(dev, st_print_position); 16212 16213 scsi_log(dev, label, level, 16214 "%s Position data:\n", comment); 16215 scsi_log(dev, label, CE_CONT, 16216 "Positioning mode = %s", mode[pos->pmode]); 16217 scsi_log(dev, label, CE_CONT, 16218 "End Of File/Tape = %s", eof_status[pos->eof]); 16219 scsi_log(dev, label, CE_CONT, 16220 "File Number = 0x%x", pos->fileno); 16221 scsi_log(dev, label, CE_CONT, 16222 "Block Number = 0x%x", pos->blkno); 16223 scsi_log(dev, label, CE_CONT, 16224 "Logical Block = 0x%"PRIx64, pos->lgclblkno); 16225 scsi_log(dev, label, CE_CONT, 16226 "Partition Number = 0x%x", pos->partition); 16227 } 16228 static int 16229 st_check_if_media_changed(struct scsi_tape *un, caddr_t data, int size) 16230 { 16231 16232 int result = 0; 16233 int i; 16234 ST_FUNC(ST_DEVINFO, st_check_if_media_changed); 16235 16236 /* 16237 * find non alpha numeric working from the end. 16238 */ 16239 for (i = size - 1; i >= 0; i--) { 16240 if (ISALNUM(data[i]) == 0 || data[i] == ' ') { 16241 data[i] = 0; 16242 size = i; 16243 } 16244 } 16245 16246 if (size == 1) { 16247 /* 16248 * Drive seems to think its returning useful data 16249 * but it looks like all junk 16250 */ 16251 return (result); 16252 } 16253 16254 size++; 16255 16256 /* 16257 * Actually got a valid serial number. 16258 * If never stored one before alloc space for it. 16259 */ 16260 if (un->un_media_id_len == 0) { 16261 un->un_media_id = kmem_zalloc(size, KM_SLEEP); 16262 un->un_media_id_len = size; 16263 (void) strncpy(un->un_media_id, data, min(size, strlen(data))); 16264 un->un_media_id[min(size, strlen(data))] = 0; 16265 ST_DEBUG1(ST_DEVINFO, st_label, SCSI_DEBUG, 16266 "Found Media Id %s length = %d\n", un->un_media_id, size); 16267 } else if (size > un->un_media_id_len) { 16268 if (strncmp(un->un_media_id, data, size) != 0) { 16269 result = ESPIPE; 16270 } 16271 ST_DEBUG1(ST_DEVINFO, st_label, SCSI_DEBUG, 16272 "Longer Media Id old ID:%s new ID:%s\n", 16273 un->un_media_id, data); 16274 kmem_free(un->un_media_id, un->un_media_id_len); 16275 un->un_media_id = kmem_zalloc(size, KM_SLEEP); 16276 un->un_media_id_len = size; 16277 (void) strncpy(un->un_media_id, data, size); 16278 un->un_media_id[size] = 0; 16279 } else if (strncmp(data, un->un_media_id, 16280 min(size, un->un_media_id_len)) != 0) { 16281 ST_DEBUG1(ST_DEVINFO, st_label, SCSI_DEBUG, 16282 "Old Media Id %s length = %d New %s length = %d\n", 16283 un->un_media_id, un->un_media_id_len, data, size); 16284 bzero(un->un_media_id, un->un_media_id_len); 16285 (void) strncpy(un->un_media_id, data, min(size, strlen(data))); 16286 un->un_media_id[min(size, strlen(data))] = 0; 16287 result = ESPIPE; 16288 } else { 16289 ST_DEBUG4(ST_DEVINFO, st_label, SCSI_DEBUG, 16290 "Media Id still %s\n", un->un_media_id); 16291 } 16292 16293 ASSERT(strlen(un->un_media_id) <= size); 16294 16295 return (result); 16296 } 16297 #define ID_SIZE 32 16298 typedef struct 16299 { 16300 uchar_t avilable_data0; 16301 uchar_t avilable_data1; 16302 uchar_t avilable_data2; 16303 uchar_t avilable_data3; 16304 uchar_t attribute_msb; 16305 uchar_t attribute_lsb; 16306 #ifdef _BIT_FIELDS_LTOH 16307 uchar_t format : 2, 16308 : 5, 16309 read_only : 1; 16310 #else 16311 uchar_t read_only : 1, 16312 : 5, 16313 format : 2; 16314 #endif 16315 uchar_t attribute_len_msb; 16316 uchar_t attribute_len_lsb; 16317 }attribute_header; 16318 16319 typedef struct { 16320 attribute_header header; 16321 char data[1]; 16322 }mam_attribute; 16323 16324 static int 16325 st_handle_hex_media_id(struct scsi_tape *un, void *pnt, int size) 16326 { 16327 int result; 16328 int newsize = (size << 1) + 3; /* extra for leading 0x and null term */ 16329 int i; 16330 uchar_t byte; 16331 char *format; 16332 uchar_t *data = (uchar_t *)pnt; 16333 char *buf = kmem_alloc(newsize, KM_SLEEP); 16334 16335 ST_FUNC(ST_DEVINFO, st_handle_hex_media_id); 16336 16337 (void) sprintf(buf, "0x"); 16338 for (i = 0; i < size; i++) { 16339 byte = data[i]; 16340 if (byte < 0x10) 16341 format = "0%x"; 16342 else 16343 format = "%x"; 16344 (void) sprintf(&buf[(int)strlen(buf)], format, byte); 16345 } 16346 result = st_check_if_media_changed(un, buf, newsize); 16347 16348 kmem_free(buf, newsize); 16349 16350 return (result); 16351 } 16352 16353 16354 static int 16355 st_get_media_id_via_read_attribute(struct scsi_tape *un, ubufunc_t bufunc) 16356 { 16357 int result; 16358 mam_attribute *buffer; 16359 int size; 16360 int newsize; 16361 16362 ST_FUNC(ST_DEVINFO, st_get_media_id_via_read_attribute); 16363 size = sizeof (attribute_header) + max(un->un_media_id_len, ID_SIZE); 16364 again: 16365 buffer = kmem_zalloc(size, KM_SLEEP); 16366 result = st_read_attributes(un, 0x0401, buffer, size, bufunc); 16367 if (result == 0) { 16368 16369 newsize = (buffer->header.attribute_len_msb << 8) | 16370 buffer->header.attribute_len_lsb; 16371 16372 if (newsize + sizeof (attribute_header) > size) { 16373 ST_DEBUG(ST_DEVINFO, st_label, SCSI_DEBUG, 16374 "resizing read attribute data from %d to %d format" 16375 " %d\n", size, (int)sizeof (attribute_header) + 16376 newsize, buffer->header.format); 16377 kmem_free(buffer, size); 16378 size = newsize + sizeof (attribute_header); 16379 goto again; 16380 } 16381 16382 un->un_media_id_method = st_get_media_id_via_read_attribute; 16383 if (buffer->header.format == 0) { 16384 result = 16385 st_handle_hex_media_id(un, buffer->data, newsize); 16386 } else { 16387 result = st_check_if_media_changed(un, buffer->data, 16388 newsize); 16389 } 16390 } else if (result == EINVAL && un->un_max_cdb_sz < CDB_GROUP4) { 16391 scsi_log(ST_DEVINFO, st_label, CE_NOTE, 16392 "Read Attribute Command for Media Identification is not " 16393 "supported on the HBA that this drive is attached to."); 16394 result = ENOTTY; 16395 } 16396 16397 kmem_free(buffer, size); 16398 un->un_status = 0; 16399 16400 return (result); 16401 } 16402 16403 16404 static int 16405 st_get_media_id_via_media_serial_cmd(struct scsi_tape *un, ubufunc_t bufunc) 16406 { 16407 char cdb[CDB_GROUP5]; 16408 struct uscsi_cmd *ucmd; 16409 struct scsi_extended_sense sense; 16410 int rval; 16411 int size = max(un->un_media_id_len, ID_SIZE); 16412 caddr_t buf; 16413 16414 ST_FUNC(ST_DEVINFO, st_get_media_id_via_media_serial_cmd); 16415 16416 if (un->un_sd->sd_inq->inq_ansi < 3) { 16417 return (ENOTTY); 16418 } 16419 16420 ucmd = kmem_zalloc(sizeof (struct uscsi_cmd), KM_SLEEP); 16421 upsize: 16422 buf = kmem_alloc(size, KM_SLEEP); 16423 16424 cdb[0] = (char)SCMD_SVC_ACTION_IN_G5; 16425 cdb[1] = SSVC_ACTION_READ_MEDIA_SERIAL; 16426 cdb[2] = 0; 16427 cdb[3] = 0; 16428 cdb[4] = 0; 16429 cdb[5] = 0; 16430 cdb[6] = (char)(size >> 24); 16431 cdb[7] = (char)(size >> 16); 16432 cdb[8] = (char)(size >> 8); 16433 cdb[9] = (char)(size); 16434 cdb[10] = 0; 16435 cdb[11] = 0; 16436 16437 ucmd->uscsi_flags = USCSI_READ | USCSI_RQENABLE; 16438 ucmd->uscsi_timeout = un->un_dp->non_motion_timeout; 16439 ucmd->uscsi_cdb = &cdb[0]; 16440 ucmd->uscsi_cdblen = sizeof (cdb); 16441 ucmd->uscsi_bufaddr = buf; 16442 ucmd->uscsi_buflen = size; 16443 ucmd->uscsi_rqbuf = (caddr_t)&sense; 16444 ucmd->uscsi_rqlen = sizeof (sense); 16445 16446 rval = bufunc(un, ucmd, FKIOCTL); 16447 16448 if (rval || ucmd->uscsi_status != 0) { 16449 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 16450 "media serial command returned %d scsi_status %d" 16451 " rqstatus %d", rval, ucmd->uscsi_status, 16452 ucmd->uscsi_rqstatus); 16453 /* 16454 * If this returns invalid operation code don't try again. 16455 */ 16456 if (sense.es_key == KEY_ILLEGAL_REQUEST && 16457 sense.es_add_code == 0x20) { 16458 rval = ENOTTY; 16459 } else if (rval == 0) { 16460 rval = EIO; 16461 } 16462 un->un_status = 0; 16463 } else { 16464 int act_size; 16465 16466 /* 16467 * get reported size. 16468 */ 16469 act_size = (int)buf[3] | (int)(buf[2] << 8) | 16470 (int)(buf[1] << 16) | (int)(buf[0] << 24); 16471 16472 /* documentation says mod 4. */ 16473 while (act_size & 3) { 16474 act_size++; 16475 } 16476 16477 /* 16478 * If reported size is larger that we our buffer. 16479 * Free the old one and allocate one that is larger 16480 * enough and re-issuse the command. 16481 */ 16482 if (act_size + 4 > size) { 16483 kmem_free(buf, size); 16484 size = act_size + 4; 16485 goto upsize; 16486 } 16487 16488 if (act_size == 0) { 16489 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 16490 "media serial number is not available"); 16491 un->un_status = 0; 16492 rval = 0; 16493 } else { 16494 /* 16495 * set data pointer to point to the start 16496 * of that serial number. 16497 */ 16498 un->un_media_id_method = 16499 st_get_media_id_via_media_serial_cmd; 16500 rval = 16501 st_check_if_media_changed(un, &buf[4], act_size); 16502 } 16503 } 16504 16505 kmem_free(ucmd, sizeof (struct uscsi_cmd)); 16506 kmem_free(buf, size); 16507 16508 return (rval); 16509 } 16510 16511 16512 /* ARGSUSED */ 16513 static int 16514 st_bogus_media_id(struct scsi_tape *un, ubufunc_t bufunc) 16515 { 16516 ST_FUNC(ST_DEVINFO, st_bogus_media_id); 16517 16518 ASSERT(un->un_media_id == NULL || un->un_media_id == bogusID); 16519 ASSERT(un->un_media_id_len == 0); 16520 un->un_media_id = (char *)bogusID; 16521 un->un_media_id_len = 0; 16522 return (0); 16523 } 16524 16525 typedef int (*media_chk_function)(struct scsi_tape *, ubufunc_t bufunc); 16526 16527 media_chk_function media_chk_functions[] = { 16528 st_get_media_id_via_media_serial_cmd, 16529 st_get_media_id_via_read_attribute, 16530 st_bogus_media_id 16531 }; 16532 16533 static int 16534 st_get_media_identification(struct scsi_tape *un, ubufunc_t bufunc) 16535 { 16536 int result = 0; 16537 int i; 16538 16539 ST_FUNC(ST_DEVINFO, st_get_media_identification); 16540 16541 for (i = 0; i < ST_NUM_MEMBERS(media_chk_functions); i++) { 16542 if (result == ENOTTY) { 16543 /* 16544 * Last operation type not supported by this device. 16545 * Make so next time it doesn`t do that again. 16546 */ 16547 un->un_media_id_method = media_chk_functions[i]; 16548 } else if (un->un_media_id_method != media_chk_functions[i] && 16549 un->un_media_id_method != st_get_media_identification) { 16550 continue; 16551 } 16552 result = media_chk_functions[i](un, bufunc); 16553 /* 16554 * If result indicates the function was successful or 16555 * that the media is not the same as last known, break. 16556 */ 16557 if (result == 0 || result == ESPIPE) { 16558 break; 16559 } 16560 } 16561 16562 return (result); 16563 } 16564 16565 static errstate 16566 st_command_recovery(struct scsi_tape *un, struct scsi_pkt *pkt, 16567 errstate onentry) 16568 { 16569 16570 int ret; 16571 st_err_info *errinfo; 16572 recov_info *ri = (recov_info *)pkt->pkt_private; 16573 16574 ST_FUNC(ST_DEVINFO, st_command_recovery); 16575 16576 ASSERT(MUTEX_HELD(&un->un_sd->sd_mutex)); 16577 16578 ASSERT(un->un_recov_buf_busy == 0); 16579 16580 /* 16581 * Don't try and recover a reset that this device sent. 16582 */ 16583 if (un->un_rsvd_status & ST_INITIATED_RESET && 16584 onentry == DEVICE_RESET) { 16585 return (COMMAND_DONE_ERROR); 16586 } 16587 16588 /* 16589 * See if expected position was passed with scsi_pkt. 16590 */ 16591 if (ri->privatelen == sizeof (recov_info)) { 16592 16593 /* 16594 * Not for this command. 16595 */ 16596 if (ri->cmd_attrib->do_not_recover) { 16597 return (COMMAND_DONE_ERROR); 16598 } 16599 16600 /* 16601 * Create structure to hold all error state info. 16602 */ 16603 errinfo = kmem_zalloc(ST_ERR_INFO_SIZE, KM_SLEEP); 16604 errinfo->ei_error_type = onentry; 16605 errinfo->ei_failing_bp = ri->cmd_bp; 16606 COPY_POS(&errinfo->ei_expected_pos, &ri->pos); 16607 } else { 16608 /* disabled */ 16609 return (COMMAND_DONE_ERROR); 16610 } 16611 16612 bcopy(pkt, &errinfo->ei_failed_pkt, scsi_pkt_size()); 16613 bcopy(pkt->pkt_scbp, &errinfo->ei_failing_status, SECMDS_STATUS_SIZE); 16614 ret = ddi_taskq_dispatch(un->un_recov_taskq, st_recover, errinfo, 16615 DDI_NOSLEEP); 16616 ASSERT(ret == DDI_SUCCESS); 16617 if (ret != DDI_SUCCESS) { 16618 kmem_free(errinfo, ST_ERR_INFO_SIZE); 16619 return (COMMAND_DONE_ERROR); 16620 } 16621 return (JUST_RETURN); /* release calling thread */ 16622 } 16623 16624 16625 static void 16626 st_recov_ret(struct scsi_tape *un, st_err_info *errinfo, errstate err) 16627 { 16628 int error_number; 16629 buf_t *bp; 16630 16631 16632 ST_FUNC(ST_DEVINFO, st_recov_ret); 16633 16634 ASSERT(MUTEX_HELD(&un->un_sd->sd_mutex)); 16635 #if !defined(lint) 16636 _NOTE(LOCK_RELEASED_AS_SIDE_EFFECT(&un->un_sd->sd_mutex)) 16637 #endif 16638 16639 bp = errinfo->ei_failing_bp; 16640 kmem_free(errinfo, ST_ERR_INFO_SIZE); 16641 16642 switch (err) { 16643 case JUST_RETURN: 16644 mutex_exit(&un->un_sd->sd_mutex); 16645 return; 16646 16647 case COMMAND_DONE: 16648 case COMMAND_DONE_ERROR_RECOVERED: 16649 ST_DO_KSTATS(bp, kstat_runq_exit); 16650 error_number = 0; 16651 break; 16652 16653 default: 16654 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 16655 "st_recov_ret with unhandled errstat %d\n", err); 16656 /* FALLTHROUGH */ 16657 case COMMAND_DONE_ERROR: 16658 case COMMAND_DONE_EACCES: 16659 ST_DO_KSTATS(bp, kstat_waitq_exit); 16660 ST_DO_ERRSTATS(un, st_transerrs); 16661 error_number = EIO; 16662 st_set_pe_flag(un); 16663 break; 16664 16665 } 16666 16667 st_bioerror(bp, error_number); 16668 st_done_and_mutex_exit(un, bp); 16669 } 16670 16671 16672 static void 16673 st_recover(void *arg) 16674 { 16675 st_err_info *const errinfo = (st_err_info *)arg; 16676 uchar_t com = errinfo->ei_failed_pkt.pkt_cdbp[0]; 16677 struct scsi_tape *un; 16678 tapepos_t cur_pos; 16679 int rval; 16680 errstate status = COMMAND_DONE_ERROR; 16681 recov_info *rcv; 16682 buf_t *bp; 16683 16684 16685 rcv = errinfo->ei_failed_pkt.pkt_private; 16686 ASSERT(rcv->privatelen == sizeof (recov_info)); 16687 bp = rcv->cmd_bp; 16688 16689 un = ddi_get_soft_state(st_state, MTUNIT(bp->b_edev)); 16690 16691 ASSERT(un != NULL); 16692 16693 mutex_enter(ST_MUTEX); 16694 16695 ST_FUNC(ST_DEVINFO, st_recover); 16696 16697 ST_CDB(ST_DEVINFO, "Recovering command", 16698 (caddr_t)errinfo->ei_failed_pkt.pkt_cdbp); 16699 ST_SENSE(ST_DEVINFO, "sense status for failed command", 16700 (caddr_t)&errinfo->ei_failing_status, 16701 sizeof (struct scsi_arq_status)); 16702 ST_POS(ST_DEVINFO, rcv->cmd_attrib->recov_pos_type == POS_STARTING ? 16703 "starting position for recovery command" : 16704 "expected position for recovery command", 16705 &errinfo->ei_expected_pos); 16706 16707 rval = st_test_path_to_device(un); 16708 16709 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 16710 "st_recover called with %s, TUR returned %d\n", 16711 errstatenames[errinfo->ei_error_type], rval); 16712 /* 16713 * If the drive responed to the TUR lets try and get it to sync 16714 * any data it might have in the buffer. 16715 */ 16716 if (rval == 0 && rcv->cmd_attrib->chg_tape_data) { 16717 (void) st_rcmd(un, SCMD_WRITE_FILE_MARK, 0, SYNC_CMD); 16718 } 16719 switch (errinfo->ei_error_type) { 16720 case ATTEMPT_RETRY: 16721 case COMMAND_TIMEOUT: 16722 case DEVICE_RESET: 16723 case PATH_FAILED: 16724 /* 16725 * For now if we can't talk to the device we are done. 16726 * If the drive is reserved we can try to get it back. 16727 */ 16728 if (rval != 0 && rval != EACCES) { 16729 st_recov_ret(un, errinfo, COMMAND_DONE_ERROR); 16730 return; 16731 } 16732 16733 /* 16734 * If scsi II lost reserve try and get it back. 16735 */ 16736 if ((((un->un_rsvd_status & 16737 (ST_LOST_RESERVE | ST_APPLICATION_RESERVATIONS)) == 16738 ST_LOST_RESERVE)) && 16739 (errinfo->ei_failed_pkt.pkt_cdbp[0] != SCMD_RELEASE)) { 16740 rval = st_reserve_release(un, ST_RESERVE, 16741 st_uscsi_rcmd); 16742 if (rval != 0) { 16743 if (st_take_ownership(un, st_uscsi_rcmd) != 0) { 16744 st_recov_ret(un, errinfo, 16745 COMMAND_DONE_EACCES); 16746 return; 16747 } 16748 } 16749 un->un_rsvd_status |= ST_RESERVE; 16750 un->un_rsvd_status &= ~(ST_RELEASE | ST_LOST_RESERVE | 16751 ST_RESERVATION_CONFLICT | ST_INITIATED_RESET); 16752 } 16753 rval = st_check_mode_for_change(un, st_uscsi_rcmd); 16754 if (rval) { 16755 rval = st_gen_mode_select(un, st_uscsi_rcmd, 16756 un->un_mspl, sizeof (struct seq_mode)); 16757 } 16758 if (rval) { 16759 st_recov_ret(un, errinfo, COMMAND_DONE_ERROR); 16760 return; 16761 } 16762 break; 16763 case DEVICE_TAMPER: 16764 /* 16765 * Check if the ASC/ASCQ says mode data has changed. 16766 */ 16767 if ((errinfo->ei_failing_status.sts_sensedata.es_add_code == 16768 0x2a) && 16769 (errinfo->ei_failing_status.sts_sensedata.es_qual_code == 16770 0x01)) { 16771 /* 16772 * See if mode sense changed. 16773 */ 16774 rval = st_check_mode_for_change(un, st_uscsi_rcmd); 16775 if (rval) { 16776 /* 16777 * If so change it back. 16778 */ 16779 rval = st_gen_mode_select(un, st_uscsi_rcmd, 16780 un->un_mspl, sizeof (struct seq_mode)); 16781 } 16782 if (rval) { 16783 st_recov_ret(un, errinfo, COMMAND_DONE_ERROR); 16784 return; 16785 } 16786 } 16787 /* 16788 * if we have a media id and its not bogus. 16789 * Check to see if it the same. 16790 */ 16791 if (un->un_media_id != NULL && un->un_media_id != bogusID) { 16792 rval = st_get_media_identification(un, st_uscsi_rcmd); 16793 if (rval == ESPIPE) { 16794 st_recov_ret(un, errinfo, COMMAND_DONE_EACCES); 16795 return; 16796 } 16797 } 16798 break; 16799 default: 16800 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 16801 "Unhandled error type %s in st_recover() 0x%x\n", 16802 errstatenames[errinfo->ei_error_type], com); 16803 } 16804 16805 /* 16806 * if command is retriable retry it. 16807 * Special case here. The command attribute for SCMD_REQUEST_SENSE 16808 * does not say that it is retriable. That because if you reissue a 16809 * request sense and the target responds the sense data will have 16810 * been consumed and no long be valid. If we get a busy status on 16811 * request sense while the state is ST_STATE_SENSING this will 16812 * reissue that pkt. 16813 * 16814 * XXX If this request sense gets sent to a different port then 16815 * the original command that failed was sent on it will not get 16816 * valid sense data for that command. 16817 */ 16818 if (rcv->cmd_attrib->retriable || un->un_rqs_bp == bp) { 16819 status = st_recover_reissue_pkt(un, &errinfo->ei_failed_pkt); 16820 16821 /* 16822 * if drive doesn't support read position we are done 16823 */ 16824 } else if (un->un_read_pos_type == NO_POS) { 16825 status = COMMAND_DONE_ERROR; 16826 /* 16827 * If this command results in a changed tape position, 16828 * lets see where we are. 16829 */ 16830 } else if (rcv->cmd_attrib->chg_tape_pos) { 16831 /* 16832 * XXX May be a reason to choose a different type here. 16833 * Long format has file position information. 16834 * Short and Extended have information about whats 16835 * in the buffer. St's positioning assumes in the buffer 16836 * to be the same as on tape. 16837 */ 16838 rval = st_compare_expected_position(un, errinfo, 16839 rcv->cmd_attrib, &cur_pos); 16840 if (rval == 0) { 16841 status = COMMAND_DONE; 16842 } else if (rval == EAGAIN) { 16843 status = st_recover_reissue_pkt(un, 16844 &errinfo->ei_failed_pkt); 16845 } else { 16846 status = COMMAND_DONE_ERROR; 16847 } 16848 } else { 16849 ASSERT(0); 16850 } 16851 16852 st_recov_ret(un, errinfo, status); 16853 } 16854 16855 static void 16856 st_recov_cb(struct scsi_pkt *pkt) 16857 { 16858 struct scsi_tape *un; 16859 struct buf *bp; 16860 recov_info *rcv; 16861 errstate action = COMMAND_DONE_ERROR; 16862 int timout = ST_TRAN_BUSY_TIMEOUT; /* short (default) timeout */ 16863 16864 /* 16865 * Get the buf from the packet. 16866 */ 16867 rcv = pkt->pkt_private; 16868 ASSERT(rcv->privatelen == sizeof (recov_info)); 16869 bp = rcv->cmd_bp; 16870 16871 /* 16872 * get the unit from the buf. 16873 */ 16874 un = ddi_get_soft_state(st_state, MTUNIT(bp->b_edev)); 16875 ASSERT(un != NULL); 16876 16877 ST_FUNC(ST_DEVINFO, st_recov_cb); 16878 16879 mutex_enter(ST_MUTEX); 16880 16881 ASSERT(bp == un->un_recov_buf); 16882 16883 16884 switch (pkt->pkt_reason) { 16885 case CMD_CMPLT: 16886 if (un->un_arq_enabled && pkt->pkt_state & STATE_ARQ_DONE) { 16887 action = st_handle_autosense(un, bp, &rcv->pos); 16888 } else if ((SCBP(pkt)->sts_busy) || 16889 (SCBP(pkt)->sts_chk) || 16890 (SCBP(pkt)->sts_vu7)) { 16891 action = st_check_error(un, pkt); 16892 } else { 16893 action = COMMAND_DONE; 16894 } 16895 break; 16896 case CMD_TIMEOUT: 16897 action = COMMAND_TIMEOUT; 16898 break; 16899 case CMD_TRAN_ERR: 16900 action = QUE_COMMAND; 16901 break; 16902 default: 16903 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 16904 "pkt_reason not handled yet %s", 16905 scsi_rname(pkt->pkt_reason)); 16906 action = COMMAND_DONE_ERROR; 16907 } 16908 16909 /* 16910 * check for undetected path failover. 16911 */ 16912 if ((un->un_multipath) && 16913 (un->un_last_path_instance != pkt->pkt_path_instance)) { 16914 if (un->un_state > ST_STATE_OPENING) { 16915 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 16916 "Failover detected in recovery, action is %s\n", 16917 errstatenames[action]); 16918 } 16919 un->un_last_path_instance = pkt->pkt_path_instance; 16920 } 16921 16922 ST_RECOV(ST_DEVINFO, st_label, CE_WARN, 16923 "Recovery call back got %s status on %s\n", 16924 errstatenames[action], st_print_scsi_cmd(pkt->pkt_cdbp[0])); 16925 16926 switch (action) { 16927 case COMMAND_DONE: 16928 break; 16929 16930 case COMMAND_DONE_EACCES: 16931 bioerror(bp, EACCES); 16932 break; 16933 16934 case COMMAND_DONE_ERROR_RECOVERED: /* XXX maybe wrong */ 16935 ASSERT(0); 16936 break; 16937 16938 case COMMAND_TIMEOUT: 16939 case COMMAND_DONE_ERROR: 16940 bioerror(bp, EIO); 16941 break; 16942 16943 case DEVICE_RESET: 16944 case QUE_BUSY_COMMAND: 16945 case PATH_FAILED: 16946 /* longish timeout */ 16947 timout = ST_STATUS_BUSY_TIMEOUT; 16948 /* FALLTHRU */ 16949 case QUE_COMMAND: 16950 case DEVICE_TAMPER: 16951 case ATTEMPT_RETRY: 16952 /* 16953 * let st_handle_intr_busy put this bp back on waitq and make 16954 * checks to see if it is ok to requeue the command. 16955 */ 16956 ST_DO_KSTATS(bp, kstat_runq_back_to_waitq); 16957 16958 /* 16959 * Save the throttle before setting up the timeout 16960 */ 16961 if (un->un_throttle) { 16962 un->un_last_throttle = un->un_throttle; 16963 } 16964 mutex_exit(ST_MUTEX); 16965 if (st_handle_intr_busy(un, bp, timout) == 0) { 16966 return; /* timeout is setup again */ 16967 } 16968 mutex_enter(ST_MUTEX); 16969 un->un_pos.pmode = invalid; 16970 un->un_err_resid = bp->b_resid = bp->b_bcount; 16971 st_bioerror(bp, EIO); 16972 st_set_pe_flag(un); 16973 break; 16974 16975 default: 16976 ST_DEBUG(ST_DEVINFO, st_label, CE_PANIC, 16977 "Unhandled recovery state 0x%x\n", action); 16978 un->un_pos.pmode = invalid; 16979 un->un_err_resid = bp->b_resid = bp->b_bcount; 16980 st_bioerror(bp, EIO); 16981 st_set_pe_flag(un); 16982 break; 16983 } 16984 16985 st_done_and_mutex_exit(un, bp); 16986 } 16987 16988 static int 16989 st_rcmd(struct scsi_tape *un, int com, int64_t count, int wait) 16990 { 16991 struct buf *bp; 16992 int err; 16993 16994 ST_FUNC(ST_DEVINFO, st_rcmd); 16995 16996 ST_DEBUG3(ST_DEVINFO, st_label, SCSI_DEBUG, 16997 "st_rcmd(un = 0x%p, com = 0x%x, count = %"PRIx64", wait = %d)\n", 16998 (void *)un, com, count, wait); 16999 17000 ASSERT(MUTEX_HELD(&un->un_sd->sd_mutex)); 17001 ASSERT(mutex_owned(ST_MUTEX)); 17002 17003 #ifdef STDEBUG 17004 if ((st_debug & 0x7)) { 17005 st_debug_cmds(un, com, count, wait); 17006 } 17007 #endif 17008 17009 while (un->un_recov_buf_busy) 17010 cv_wait(&un->un_recov_buf_cv, ST_MUTEX); 17011 un->un_recov_buf_busy = 1; 17012 17013 bp = un->un_recov_buf; 17014 bzero(bp, sizeof (buf_t)); 17015 17016 bp->b_flags = (wait) ? B_BUSY : B_BUSY|B_ASYNC; 17017 17018 err = st_setup_cmd(un, bp, com, count); 17019 17020 un->un_recov_buf_busy = 0; 17021 17022 cv_signal(&un->un_recov_buf_cv); 17023 17024 return (err); 17025 } 17026 17027 /* args used */ 17028 static int 17029 st_uscsi_rcmd(struct scsi_tape *un, struct uscsi_cmd *ucmd, int flag) 17030 { 17031 int rval; 17032 buf_t *bp; 17033 17034 ST_FUNC(ST_DEVINFO, st_uscsi_rcmd); 17035 ASSERT(flag == FKIOCTL); 17036 17037 /* 17038 * Get buffer resources... 17039 */ 17040 while (un->un_recov_buf_busy) 17041 cv_wait(&un->un_recov_buf_cv, ST_MUTEX); 17042 un->un_recov_buf_busy = 1; 17043 17044 bp = un->un_recov_buf; 17045 bzero(bp, sizeof (buf_t)); 17046 17047 bp->b_forw = (struct buf *)(uintptr_t)ucmd->uscsi_cdb[0]; 17048 bp->b_back = (struct buf *)ucmd; 17049 17050 mutex_exit(ST_MUTEX); 17051 rval = scsi_uscsi_handle_cmd(un->un_dev, UIO_SYSSPACE, ucmd, 17052 st_strategy, bp, NULL); 17053 mutex_enter(ST_MUTEX); 17054 17055 ucmd->uscsi_resid = bp->b_resid; 17056 17057 /* 17058 * Free resources 17059 */ 17060 un->un_recov_buf_busy = 0; 17061 cv_signal(&un->un_recov_buf_cv); 17062 17063 return (rval); 17064 } 17065 17066 /* 17067 * Add data to scsi_pkt to help know what to do if the command fails. 17068 */ 17069 static void 17070 st_add_recovery_info_to_pkt(struct scsi_tape *un, buf_t *bp, 17071 struct scsi_pkt *pkt) 17072 { 17073 uint64_t count; 17074 recov_info *rinfo = (recov_info *)pkt->pkt_private; 17075 17076 ST_FUNC(ST_DEVINFO, st_add_recovery_info_to_pkt); 17077 17078 ASSERT(rinfo->privatelen == sizeof (pkt_info) || 17079 rinfo->privatelen == sizeof (recov_info)); 17080 17081 SET_BP_PKT(bp, pkt); 17082 rinfo->cmd_bp = bp; 17083 17084 if (rinfo->privatelen != sizeof (recov_info)) { 17085 return; 17086 } 17087 17088 rinfo->cmd_bp = bp; 17089 17090 rinfo->cmd_attrib = NULL; 17091 17092 /* 17093 * lookup the command attributes and add them to the recovery info. 17094 */ 17095 rinfo->cmd_attrib = st_lookup_cmd_attribute(pkt->pkt_cdbp[0]); 17096 17097 ASSERT(rinfo->cmd_attrib); 17098 17099 /* 17100 * For commands that there is no way to figure the expected position 17101 * once completed, we save the position the command was started from 17102 * so that if they fail we can position back and try again. 17103 * This has already been done in st_cmd() or st_iscsi_cmd(). 17104 */ 17105 if (rinfo->cmd_attrib->recov_pos_type == POS_STARTING) { 17106 /* save current position as the starting position. */ 17107 COPY_POS(&rinfo->pos, &un->un_pos); 17108 un->un_running.pmode = invalid; 17109 return; 17110 } 17111 17112 /* 17113 * Don't want to update the running position for recovery. 17114 */ 17115 if (bp == un->un_recov_buf) { 17116 rinfo->pos.pmode = un->un_running.pmode; 17117 return; 17118 } 17119 /* 17120 * If running position is invalid copy the current position. 17121 * Running being set invalid means we are not in a read, write 17122 * or write filemark sequence. 17123 * We'll copy the current position and start from there. 17124 */ 17125 if (un->un_running.pmode == invalid) { 17126 COPY_POS(&un->un_running, &un->un_pos); 17127 COPY_POS(&rinfo->pos, &un->un_running); 17128 } else { 17129 COPY_POS(&rinfo->pos, &un->un_running); 17130 if (rinfo->pos.pmode == legacy) { 17131 /* 17132 * Always should be more logical blocks then 17133 * data blocks and files marks. 17134 */ 17135 ASSERT((rinfo->pos.blkno >= 0) ? 17136 rinfo->pos.lgclblkno >= 17137 (rinfo->pos.blkno + rinfo->pos.fileno) : 1); 17138 } 17139 } 17140 17141 /* 17142 * If the command is not expected to change the drive position 17143 * then the running position should be the expected position. 17144 */ 17145 if (rinfo->cmd_attrib->chg_tape_pos == 0) { 17146 ASSERT(rinfo->cmd_attrib->chg_tape_direction == DIR_NONE); 17147 return; 17148 } 17149 17150 if (rinfo->cmd_attrib->explicit) { 17151 ASSERT(rinfo->pos.pmode != invalid); 17152 ASSERT(rinfo->cmd_attrib->get_cnt); 17153 count = rinfo->cmd_attrib->get_cnt(pkt->pkt_cdbp); 17154 /* 17155 * This is a user generated CDB. 17156 */ 17157 if (bp == un->un_sbufp) { 17158 uint64_t lbn; 17159 17160 lbn = rinfo->cmd_attrib->get_lba(pkt->pkt_cdbp); 17161 17162 /* 17163 * See if this CDB will generate a locate or change 17164 * partition. 17165 */ 17166 if ((lbn != un->un_running.lgclblkno) || 17167 (pkt->pkt_cdbp[3] != un->un_running.partition)) { 17168 rinfo->pos.partition = pkt->pkt_cdbp[3]; 17169 rinfo->pos.pmode = logical; 17170 rinfo->pos.lgclblkno = lbn; 17171 un->un_running.partition = pkt->pkt_cdbp[3]; 17172 un->un_running.pmode = logical; 17173 un->un_running.lgclblkno = lbn; 17174 } 17175 } else { 17176 uint64_t lbn = un->un_running.lgclblkno; 17177 17178 pkt->pkt_cdbp[3] = (uchar_t)un->un_running.partition; 17179 17180 pkt->pkt_cdbp[4] = (uchar_t)(lbn >> 56); 17181 pkt->pkt_cdbp[5] = (uchar_t)(lbn >> 48); 17182 pkt->pkt_cdbp[6] = (uchar_t)(lbn >> 40); 17183 pkt->pkt_cdbp[7] = (uchar_t)(lbn >> 32); 17184 pkt->pkt_cdbp[8] = (uchar_t)(lbn >> 24); 17185 pkt->pkt_cdbp[9] = (uchar_t)(lbn >> 16); 17186 pkt->pkt_cdbp[10] = (uchar_t)(lbn >> 8); 17187 pkt->pkt_cdbp[11] = (uchar_t)(lbn); 17188 } 17189 rinfo->pos.lgclblkno += count; 17190 rinfo->pos.blkno += count; 17191 un->un_running.lgclblkno += count; 17192 return; 17193 } 17194 17195 if (rinfo->cmd_attrib->chg_tape_pos) { 17196 17197 /* should not have got an invalid position from running. */ 17198 if (un->un_mediastate == MTIO_INSERTED) { 17199 ASSERT(rinfo->pos.pmode != invalid); 17200 } 17201 17202 /* should have either a get count or or get lba function */ 17203 ASSERT(rinfo->cmd_attrib->get_cnt != NULL || 17204 rinfo->cmd_attrib->get_lba != NULL); 17205 17206 /* only explicit commands have both and they're handled above */ 17207 ASSERT(!(rinfo->cmd_attrib->get_cnt != NULL && 17208 rinfo->cmd_attrib->get_lba != NULL)); 17209 17210 /* if it has a get count function */ 17211 if (rinfo->cmd_attrib->get_cnt != NULL) { 17212 count = rinfo->cmd_attrib->get_cnt(pkt->pkt_cdbp); 17213 if (count == 0) { 17214 return; 17215 } 17216 /* 17217 * Changes position but doesn't transfer data. 17218 * i.e. rewind, write_file_mark and load. 17219 */ 17220 if (rinfo->cmd_attrib->transfers_data == TRAN_NONE) { 17221 switch (rinfo->cmd_attrib->chg_tape_direction) { 17222 case DIR_NONE: /* Erase */ 17223 ASSERT(rinfo->cmd_attrib->cmd == 17224 SCMD_ERASE); 17225 break; 17226 case DIR_FORW: /* write_file_mark */ 17227 rinfo->pos.fileno += count; 17228 rinfo->pos.lgclblkno += count; 17229 rinfo->pos.blkno = 0; 17230 un->un_running.fileno += count; 17231 un->un_running.lgclblkno += count; 17232 un->un_running.blkno = 0; 17233 break; 17234 case DIR_REVC: /* rewind */ 17235 rinfo->pos.fileno = 0; 17236 rinfo->pos.lgclblkno = 0; 17237 rinfo->pos.blkno = 0; 17238 rinfo->pos.eof = ST_NO_EOF; 17239 rinfo->pos.pmode = legacy; 17240 un->un_running.fileno = 0; 17241 un->un_running.lgclblkno = 0; 17242 un->un_running.blkno = 0; 17243 un->un_running.eof = ST_NO_EOF; 17244 if (un->un_running.pmode != legacy) 17245 un->un_running.pmode = legacy; 17246 break; 17247 case DIR_EITH: /* Load unload */ 17248 ASSERT(rinfo->cmd_attrib->cmd == 17249 SCMD_LOAD); 17250 switch (count & (LD_LOAD | LD_RETEN | 17251 LD_RETEN | LD_HOLD)) { 17252 case LD_UNLOAD: 17253 case LD_RETEN: 17254 case LD_HOLD: 17255 case LD_LOAD | LD_HOLD: 17256 case LD_EOT | LD_HOLD: 17257 case LD_RETEN | LD_HOLD: 17258 rinfo->pos.pmode = invalid; 17259 un->un_running.pmode = invalid; 17260 break; 17261 case LD_EOT: 17262 case LD_LOAD | LD_EOT: 17263 rinfo->pos.eof = ST_EOT; 17264 rinfo->pos.pmode = invalid; 17265 un->un_running.eof = ST_EOT; 17266 un->un_running.pmode = invalid; 17267 break; 17268 case LD_LOAD: 17269 case LD_RETEN | LD_LOAD: 17270 rinfo->pos.fileno = 0; 17271 rinfo->pos.lgclblkno = 0; 17272 rinfo->pos.blkno = 0; 17273 rinfo->pos.eof = ST_NO_EOF; 17274 rinfo->pos.pmode = legacy; 17275 un->un_running.fileno = 0; 17276 un->un_running.lgclblkno = 0; 17277 un->un_running.blkno = 0; 17278 un->un_running.eof = ST_NO_EOF; 17279 break; 17280 default: 17281 ASSERT(0); 17282 } 17283 break; 17284 default: 17285 ASSERT(0); 17286 break; 17287 } 17288 } else { 17289 /* 17290 * Changes position and does transfer data. 17291 * i.e. read or write. 17292 */ 17293 switch (rinfo->cmd_attrib->chg_tape_direction) { 17294 case DIR_FORW: 17295 rinfo->pos.lgclblkno += count; 17296 rinfo->pos.blkno += count; 17297 un->un_running.lgclblkno += count; 17298 un->un_running.blkno += count; 17299 break; 17300 case DIR_REVC: 17301 rinfo->pos.lgclblkno -= count; 17302 rinfo->pos.blkno -= count; 17303 un->un_running.lgclblkno -= count; 17304 un->un_running.blkno -= count; 17305 break; 17306 default: 17307 ASSERT(0); 17308 break; 17309 } 17310 } 17311 } else if (rinfo->cmd_attrib->get_lba != NULL) { 17312 /* Have a get LBA fuction. i.e. Locate */ 17313 ASSERT(rinfo->cmd_attrib->chg_tape_direction == 17314 DIR_EITH); 17315 count = rinfo->cmd_attrib->get_lba(pkt->pkt_cdbp); 17316 un->un_running.lgclblkno = count; 17317 un->un_running.blkno = 0; 17318 un->un_running.fileno = 0; 17319 un->un_running.pmode = logical; 17320 rinfo->pos.lgclblkno = count; 17321 rinfo->pos.pmode = invalid; 17322 } else { 17323 ASSERT(0); 17324 } 17325 return; 17326 } 17327 17328 ST_CDB(ST_DEVINFO, "Unhanded CDB for position prediction", 17329 (char *)pkt->pkt_cdbp); 17330 17331 } 17332 17333 static int 17334 st_check_mode_for_change(struct scsi_tape *un, ubufunc_t ubf) 17335 { 17336 struct seq_mode *current; 17337 int rval; 17338 int i; 17339 caddr_t this; 17340 caddr_t that; 17341 17342 ST_FUNC(ST_DEVINFO, st_check_mode_for_change); 17343 17344 /* recovery called with mode tamper before mode selection */ 17345 if (un->un_comp_page == (ST_DEV_DATACOMP_PAGE | ST_DEV_CONFIG_PAGE)) { 17346 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17347 "Mode Select not done yet"); 17348 return (0); 17349 } 17350 17351 current = kmem_zalloc(sizeof (struct seq_mode), KM_SLEEP); 17352 17353 rval = st_gen_mode_sense(un, ubf, un->un_comp_page, current, 17354 sizeof (struct seq_mode)); 17355 if (rval != 0) { 17356 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17357 "Mode Sense for mode verification failed"); 17358 kmem_free(current, sizeof (struct seq_mode)); 17359 return (rval); 17360 } 17361 17362 this = (caddr_t)current; 17363 that = (caddr_t)un->un_mspl; 17364 17365 rval = bcmp(this, that, sizeof (struct seq_mode)); 17366 if (rval == 0) { 17367 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17368 "Found no changes in mode data"); 17369 } 17370 #ifdef STDEBUG 17371 else { 17372 for (i = 1; i < sizeof (struct seq_mode); i++) { 17373 if (this[i] != that[i]) { 17374 ST_RECOV(ST_DEVINFO, st_label, CE_CONT, 17375 "sense data changed at byte %d was " 17376 "0x%x now 0x%x", i, 17377 (uchar_t)that[i], (uchar_t)this[i]); 17378 } 17379 } 17380 } 17381 #endif 17382 kmem_free(current, sizeof (struct seq_mode)); 17383 17384 return (rval); 17385 } 17386 17387 static int 17388 st_test_path_to_device(struct scsi_tape *un) 17389 { 17390 int rval = 0; 17391 int limit = st_retry_count; 17392 17393 ST_FUNC(ST_DEVINFO, st_test_path_to_device); 17394 17395 /* 17396 * XXX Newer drives may not RESEVATION CONFLICT a TUR. 17397 */ 17398 do { 17399 if (rval != 0) { 17400 mutex_exit(ST_MUTEX); 17401 delay(drv_usectohz(1000000)); 17402 mutex_enter(ST_MUTEX); 17403 } 17404 rval = st_rcmd(un, SCMD_TEST_UNIT_READY, 0, SYNC_CMD); 17405 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17406 "ping TUR returned 0x%x", rval); 17407 limit--; 17408 } while (((rval == EACCES) || (rval == EBUSY)) && limit); 17409 17410 if (un->un_status == KEY_NOT_READY || un->un_mediastate == MTIO_EJECTED) 17411 rval = 0; 17412 17413 return (rval); 17414 } 17415 17416 /* 17417 * Does read position using recov_buf and doesn't update un_pos. 17418 * Does what ever kind of read position you want. 17419 */ 17420 static int 17421 st_recovery_read_pos(struct scsi_tape *un, read_p_types type, 17422 read_pos_data_t *raw) 17423 { 17424 int rval; 17425 struct uscsi_cmd cmd; 17426 struct scsi_arq_status status; 17427 char cdb[CDB_GROUP1]; 17428 17429 ST_FUNC(ST_DEVINFO, st_recovery_read_pos); 17430 bzero(&cmd, sizeof (cmd)); 17431 17432 cdb[0] = SCMD_READ_POSITION; 17433 cdb[1] = type; 17434 cdb[2] = 0; 17435 cdb[3] = 0; 17436 cdb[4] = 0; 17437 cdb[5] = 0; 17438 cdb[6] = 0; 17439 cdb[7] = 0; 17440 cdb[8] = (type == EXT_POS) ? 28 : 0; 17441 cdb[9] = 0; 17442 17443 cmd.uscsi_flags = USCSI_READ | USCSI_RQENABLE; 17444 cmd.uscsi_timeout = un->un_dp->non_motion_timeout; 17445 cmd.uscsi_cdb = cdb; 17446 cmd.uscsi_cdblen = sizeof (cdb); 17447 cmd.uscsi_rqlen = sizeof (status); 17448 cmd.uscsi_rqbuf = (caddr_t)&status; 17449 cmd.uscsi_bufaddr = (caddr_t)raw; 17450 switch (type) { 17451 case SHORT_POS: 17452 cmd.uscsi_buflen = sizeof (tape_position_t); 17453 break; 17454 case LONG_POS: 17455 cmd.uscsi_buflen = sizeof (tape_position_long_t); 17456 break; 17457 case EXT_POS: 17458 cmd.uscsi_buflen = sizeof (tape_position_ext_t); 17459 break; 17460 default: 17461 ASSERT(0); 17462 } 17463 17464 rval = st_uscsi_rcmd(un, &cmd, FKIOCTL); 17465 if (cmd.uscsi_status) { 17466 rval = EIO; 17467 } 17468 return (rval); 17469 } 17470 17471 static int 17472 st_recovery_get_position(struct scsi_tape *un, tapepos_t *read, 17473 read_pos_data_t *raw) 17474 { 17475 int rval; 17476 read_p_types type = un->un_read_pos_type; 17477 17478 ST_FUNC(ST_DEVINFO, st_recovery_get_position); 17479 17480 do { 17481 rval = st_recovery_read_pos(un, type, raw); 17482 if (rval != 0) { 17483 switch (type) { 17484 case SHORT_POS: 17485 type = NO_POS; 17486 break; 17487 17488 case LONG_POS: 17489 type = EXT_POS; 17490 break; 17491 17492 case EXT_POS: 17493 type = SHORT_POS; 17494 break; 17495 17496 default: 17497 type = LONG_POS; 17498 break; 17499 17500 } 17501 } else { 17502 if (type != un->un_read_pos_type) { 17503 un->un_read_pos_type = type; 17504 } 17505 break; 17506 } 17507 } while (type != NO_POS); 17508 17509 if (rval == 0) { 17510 rval = st_interpret_read_pos(un, read, type, 17511 sizeof (read_pos_data_t), (caddr_t)raw, 1); 17512 } 17513 return (rval); 17514 } 17515 17516 /* 17517 * based on the command do we retry, continue or give up? 17518 * possable return values? 17519 * zero do nothing looks fine. 17520 * EAGAIN retry. 17521 * EIO failed makes no sense. 17522 */ 17523 static int 17524 st_compare_expected_position(struct scsi_tape *un, st_err_info *ei, 17525 cmd_attribute const * cmd_att, tapepos_t *read) 17526 { 17527 int rval; 17528 read_pos_data_t *readp_datap; 17529 17530 ST_FUNC(ST_DEVINFO, st_compare_expected_position); 17531 17532 ASSERT(un != NULL); 17533 ASSERT(ei != NULL); 17534 ASSERT(read != NULL); 17535 ASSERT(cmd_att->chg_tape_pos); 17536 17537 COPY_POS(read, &ei->ei_expected_pos); 17538 17539 readp_datap = kmem_zalloc(sizeof (read_pos_data_t), KM_SLEEP); 17540 17541 rval = st_recovery_get_position(un, read, readp_datap); 17542 17543 kmem_free(readp_datap, sizeof (read_pos_data_t)); 17544 17545 if (rval != 0) { 17546 return (EIO); 17547 } 17548 17549 ST_POS(ST_DEVINFO, "st_compare_expected_position", read); 17550 17551 if ((read->pmode == invalid) || 17552 (ei->ei_expected_pos.pmode == invalid)) { 17553 return (EIO); 17554 } 17555 17556 /* 17557 * Command that changes tape position and have an expected position 17558 * if it were to chave completed sucessfully. 17559 */ 17560 if (cmd_att->recov_pos_type == POS_EXPECTED) { 17561 uint32_t count; 17562 int64_t difference; 17563 uchar_t reposition = 0; 17564 17565 ASSERT(cmd_att->get_cnt); 17566 count = cmd_att->get_cnt(ei->ei_failed_pkt.pkt_cdbp); 17567 17568 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17569 "Got count from CDB and it was %d\n", count); 17570 17571 /* 17572 * At expected? 17573 */ 17574 if (read->lgclblkno == ei->ei_expected_pos.lgclblkno) { 17575 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17576 "Found drive to be at expected position\n"); 17577 17578 /* 17579 * If the command should move tape and it got a busy 17580 * it shouldn't be in the expected position. 17581 */ 17582 if (ei->ei_failing_status.sts_status.sts_busy != 0) { 17583 reposition = 1; 17584 17585 /* 17586 * If the command doesn't transfer data should be good. 17587 */ 17588 } else if (cmd_att->transfers_data == TRAN_NONE) { 17589 return (0); /* Good */ 17590 17591 /* 17592 * Command transfers data, should have done so. 17593 */ 17594 } else if (ei->ei_failed_pkt.pkt_state & 17595 STATE_XFERRED_DATA) { 17596 return (0); /* Good */ 17597 } else { 17598 reposition = 1; 17599 } 17600 } 17601 17602 if (cmd_att->chg_tape_direction == DIR_FORW) { 17603 difference = 17604 ei->ei_expected_pos.lgclblkno - read->lgclblkno; 17605 17606 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17607 "difference between expected and actual is %" 17608 PRId64"\n", difference); 17609 if (count == difference && reposition == 0) { 17610 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17611 "Found failed FORW command, retrying\n"); 17612 return (EAGAIN); 17613 } 17614 17615 /* 17616 * If rewound or somewhere between the starting position 17617 * and the expected position (partial read or write). 17618 * Locate to the starting position and try the whole 17619 * thing over again. 17620 */ 17621 if ((read->lgclblkno == 0) || 17622 ((difference > 0) && (difference < count))) { 17623 rval = st_logical_block_locate(un, 17624 st_uscsi_rcmd, read, 17625 ei->ei_expected_pos.lgclblkno - count, 17626 ei->ei_expected_pos.partition); 17627 if (rval == 0) { 17628 ST_RECOV(ST_DEVINFO, st_label, 17629 CE_NOTE, "reestablished FORW" 17630 " command retrying\n"); 17631 return (EAGAIN); 17632 } 17633 /* 17634 * This handles flushed read ahead on the drive or 17635 * an aborted read that presents as a busy and advanced 17636 * the tape position. 17637 */ 17638 } else if ((cmd_att->transfers_data == TRAN_READ) && 17639 ((difference < 0) || (reposition == 1))) { 17640 rval = st_logical_block_locate(un, 17641 st_uscsi_rcmd, read, 17642 ei->ei_expected_pos.lgclblkno - count, 17643 ei->ei_expected_pos.partition); 17644 if (rval == 0) { 17645 ST_RECOV(ST_DEVINFO, st_label, 17646 CE_NOTE, "reestablished FORW" 17647 " read command retrying\n"); 17648 return (EAGAIN); 17649 } 17650 /* 17651 * XXX swag seeing difference of 2 on write filemark. 17652 * If the space to the starting position works on a 17653 * write that means the previous write made it to tape. 17654 * If not we lost data and have to give up. 17655 * 17656 * The plot thickens. Now I am attempting to cover a 17657 * count of 1 and a differance of 2 on a write. 17658 */ 17659 } else if ((difference > count) || (reposition == 1)) { 17660 rval = st_logical_block_locate(un, 17661 st_uscsi_rcmd, read, 17662 ei->ei_expected_pos.lgclblkno - count, 17663 ei->ei_expected_pos.partition); 17664 if (rval == 0) { 17665 ST_RECOV(ST_DEVINFO, st_label, 17666 CE_NOTE, "reestablished FORW" 17667 " write command retrying\n"); 17668 return (EAGAIN); 17669 } 17670 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17671 "Seek to block %"PRId64" returned %d\n", 17672 ei->ei_expected_pos.lgclblkno - count, 17673 rval); 17674 } else { 17675 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17676 "Not expected transfers_data = %d " 17677 "difference = %"PRId64, 17678 cmd_att->transfers_data, difference); 17679 } 17680 17681 return (EIO); 17682 17683 } else if (cmd_att->chg_tape_direction == DIR_REVC) { 17684 /* Don't think we can write backwards */ 17685 ASSERT(cmd_att->transfers_data != TRAN_WRTE); 17686 difference = 17687 read->lgclblkno - ei->ei_expected_pos.lgclblkno; 17688 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17689 "difference between expected and actual is %" 17690 PRId64"\n", difference); 17691 if (count == difference && reposition == 0) { 17692 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17693 "Found failed REVC command, retrying\n"); 17694 return (EAGAIN); 17695 } 17696 if ((read->lgclblkno == 0) || 17697 ((difference > 0) && (difference < count))) { 17698 rval = st_logical_block_locate(un, 17699 st_uscsi_rcmd, read, 17700 ei->ei_expected_pos.lgclblkno + count, 17701 ei->ei_expected_pos.partition); 17702 if (rval == 0) { 17703 ST_RECOV(ST_DEVINFO, st_label, 17704 CE_NOTE, "reestablished REVC" 17705 " command retrying\n"); 17706 return (EAGAIN); 17707 } 17708 /* This handles read ahead in reverse direction */ 17709 } else if ((cmd_att->transfers_data == TRAN_READ) && 17710 (difference < 0) || (reposition == 1)) { 17711 rval = st_logical_block_locate(un, 17712 st_uscsi_rcmd, read, 17713 ei->ei_expected_pos.lgclblkno - count, 17714 ei->ei_expected_pos.partition); 17715 if (rval == 0) { 17716 ST_RECOV(ST_DEVINFO, st_label, 17717 CE_NOTE, "reestablished REVC" 17718 " read command retrying\n"); 17719 return (EAGAIN); 17720 } 17721 } else { 17722 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17723 "Not expected transfers_data = %d " 17724 "difference = %"PRId64, 17725 cmd_att->transfers_data, difference); 17726 } 17727 return (EIO); 17728 17729 } else { 17730 /* 17731 * Commands that change tape position either 17732 * direction or don't change position should not 17733 * get here. 17734 */ 17735 ASSERT(0); 17736 } 17737 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17738 "Didn't find a recoverable position, Failing\n"); 17739 17740 /* 17741 * Command that changes tape position and can only be recovered 17742 * by going back to the point of origin and retrying. 17743 * 17744 * Example SCMD_SPACE. 17745 */ 17746 } else if (cmd_att->recov_pos_type == POS_STARTING) { 17747 /* 17748 * This type of command stores the starting position. 17749 * If the read position is the starting position, 17750 * reissue the command. 17751 */ 17752 if (ei->ei_expected_pos.lgclblkno == read->lgclblkno) { 17753 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17754 "Found Space command at starting position, " 17755 "Reissuing\n"); 17756 return (EAGAIN); 17757 } 17758 /* 17759 * Not in the position that the command was originally issued, 17760 * Attempt to locate to that position. 17761 */ 17762 rval = st_logical_block_locate(un, st_uscsi_rcmd, read, 17763 ei->ei_expected_pos.lgclblkno, 17764 ei->ei_expected_pos.partition); 17765 if (rval) { 17766 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17767 "Found Space at an unexpected position and locate " 17768 "back to starting position failed\n"); 17769 return (EIO); 17770 } 17771 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17772 "Found Space at an unexpected position and locate " 17773 "back to starting position worked, Reissuing\n"); 17774 return (EAGAIN); 17775 } 17776 st_print_position(ST_DEVINFO, st_label, CE_NOTE, 17777 "Unhandled attribute/expected position", &ei->ei_expected_pos); 17778 st_print_position(ST_DEVINFO, st_label, CE_NOTE, 17779 "Read position above did not make sense", read); 17780 ASSERT(0); 17781 return (EIO); 17782 } 17783 17784 static errstate 17785 st_recover_reissue_pkt(struct scsi_tape *un, struct scsi_pkt *oldpkt) 17786 { 17787 buf_t *bp; 17788 buf_t *pkt_bp; 17789 struct scsi_pkt *newpkt; 17790 cmd_attribute const *attrib; 17791 recov_info *rcv = oldpkt->pkt_private; 17792 uint_t cdblen; 17793 int queued = 0; 17794 int rval; 17795 int flags = 0; 17796 int stat_size = 17797 (un->un_arq_enabled ? sizeof (struct scsi_arq_status) : 1); 17798 17799 ST_FUNC(ST_DEVINFO, st_recover_reissue_pkt); 17800 17801 bp = rcv->cmd_bp; 17802 17803 if (rcv->privatelen == sizeof (recov_info)) { 17804 attrib = rcv->cmd_attrib; 17805 } else { 17806 attrib = st_lookup_cmd_attribute(oldpkt->pkt_cdbp[0]); 17807 } 17808 17809 /* 17810 * Some non-uscsi commands use the b_bcount for values that 17811 * have nothing to do with how much data is transfered. 17812 * In those cases we need to hide the buf_t from scsi_init_pkt(). 17813 */ 17814 if ((BP_UCMD(bp)) && (bp->b_bcount)) { 17815 pkt_bp = bp; 17816 } else if (attrib->transfers_data == TRAN_NONE) { 17817 pkt_bp = NULL; 17818 } else { 17819 pkt_bp = bp; 17820 } 17821 17822 /* 17823 * if this is a queued command make sure it the only one in the 17824 * run queue. 17825 */ 17826 if (bp != un->un_sbufp && bp != un->un_recov_buf) { 17827 ASSERT(un->un_runqf == un->un_runql); 17828 ASSERT(un->un_runqf == bp); 17829 queued = 1; 17830 } 17831 17832 cdblen = scsi_cdb_size[CDB_GROUPID(oldpkt->pkt_cdbp[0])]; 17833 17834 if (pkt_bp == un->un_rqs_bp) { 17835 flags |= PKT_CONSISTENT; 17836 stat_size = 1; 17837 } 17838 17839 newpkt = scsi_init_pkt(ROUTE, NULL, pkt_bp, cdblen, 17840 stat_size, rcv->privatelen, flags, NULL_FUNC, NULL); 17841 if (newpkt == NULL) { 17842 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17843 "Reissue pkt scsi_init_pkt() failure\n"); 17844 return (COMMAND_DONE_ERROR); 17845 } 17846 17847 ASSERT(newpkt->pkt_resid == 0); 17848 bp->b_flags &= ~(B_DONE); 17849 bp->b_resid = 0; 17850 st_bioerror(bp, 0); 17851 17852 bcopy(oldpkt->pkt_private, newpkt->pkt_private, rcv->privatelen); 17853 17854 newpkt->pkt_comp = oldpkt->pkt_comp; 17855 newpkt->pkt_time = oldpkt->pkt_time; 17856 17857 bzero(newpkt->pkt_scbp, stat_size); 17858 bcopy(oldpkt->pkt_cdbp, newpkt->pkt_cdbp, cdblen); 17859 17860 newpkt->pkt_state = 0; 17861 newpkt->pkt_statistics = 0; 17862 17863 /* 17864 * oldpkt passed in was a copy of the original. 17865 * to distroy we need the address of the original. 17866 */ 17867 oldpkt = BP_PKT(bp); 17868 17869 if (oldpkt == un->un_rqs) { 17870 ASSERT(bp == un->un_rqs_bp); 17871 un->un_rqs = newpkt; 17872 } 17873 17874 SET_BP_PKT(bp, newpkt); 17875 17876 scsi_destroy_pkt(oldpkt); 17877 17878 rval = st_transport(un, newpkt); 17879 if (rval == TRAN_ACCEPT) { 17880 return (JUST_RETURN); 17881 } 17882 ST_RECOV(ST_DEVINFO, st_label, CE_NOTE, 17883 "Reissue pkt st_transport(0x%x) failure\n", rval); 17884 if (rval != TRAN_BUSY) { 17885 return (COMMAND_DONE_ERROR); 17886 } 17887 mutex_exit(ST_MUTEX); 17888 rval = st_handle_start_busy(un, bp, ST_TRAN_BUSY_TIMEOUT, queued); 17889 mutex_enter(ST_MUTEX); 17890 if (rval) { 17891 return (COMMAND_DONE_ERROR); 17892 } 17893 17894 return (JUST_RETURN); 17895 } 17896 17897 static int 17898 st_transport(struct scsi_tape *un, struct scsi_pkt *pkt) 17899 { 17900 int status; 17901 17902 ST_FUNC(ST_DEVINFO, st_transport); 17903 17904 ST_CDB(ST_DEVINFO, "transport CDB", (caddr_t)pkt->pkt_cdbp); 17905 17906 mutex_exit(ST_MUTEX); 17907 17908 status = scsi_transport(pkt); 17909 17910 mutex_enter(ST_MUTEX); 17911 17912 return (status); 17913 } 17914 17915 /* 17916 * Removed the buf_t bp from the queue referenced to by head and tail. 17917 * Returns the buf_t pointer if it is found in the queue. 17918 * Returns NULL if it is not found. 17919 */ 17920 static buf_t * 17921 st_remove_from_queue(buf_t **head, buf_t **tail, buf_t *bp) 17922 { 17923 buf_t *runqbp; 17924 buf_t *prevbp = NULL; 17925 17926 for (runqbp = *head; runqbp != 0; runqbp = runqbp->av_forw) { 17927 if (runqbp == bp) { 17928 /* found it, is it at the head? */ 17929 if (runqbp == *head) { 17930 *head = bp->av_forw; 17931 } else { 17932 prevbp->av_forw = bp->av_forw; 17933 } 17934 if (*tail == bp) { 17935 *tail = prevbp; 17936 } 17937 bp->av_forw = NULL; 17938 return (bp); /* found and removed */ 17939 } 17940 prevbp = runqbp; 17941 } 17942 return (NULL); 17943 } 17944 17945 /* 17946 * Adds a buf_t to the queue pointed to by head and tail. 17947 * Adds it either to the head end or the tail end based on which 17948 * the passed variable end (head or tail) points at. 17949 */ 17950 static void 17951 st_add_to_queue(buf_t **head, buf_t **tail, buf_t *end, buf_t *bp) 17952 { 17953 17954 bp->av_forw = NULL; 17955 if (*head) { 17956 /* Queue is not empty */ 17957 if (end == *head) { 17958 /* Add at front of queue */ 17959 bp->av_forw = *head; 17960 *head = bp; 17961 } else if (end == *tail) { 17962 /* Add at end of queue */ 17963 (*tail)->av_forw = bp; 17964 *tail = bp; 17965 } else { 17966 ASSERT(0); 17967 } 17968 } else { 17969 /* Queue is empty */ 17970 *head = bp; 17971 *tail = bp; 17972 } 17973 } 17974 17975 17976 static uint64_t 17977 st_get_cdb_g0_rw_count(uchar_t *cdb) 17978 { 17979 uint64_t count; 17980 17981 if ((cdb[1]) & 1) { 17982 /* fixed block mode, the count is the number of blocks */ 17983 count = 17984 cdb[2] << 16 | 17985 cdb[3] << 8 | 17986 cdb[4]; 17987 } else { 17988 /* variable block mode, the count is the block size */ 17989 count = 1; 17990 } 17991 return (count); 17992 } 17993 17994 static uint64_t 17995 st_get_cdb_g0_sign_count(uchar_t *cdb) 17996 { 17997 uint64_t count; 17998 17999 count = 18000 cdb[2] << 16 | 18001 cdb[3] << 8 | 18002 cdb[4]; 18003 /* 18004 * If the sign bit of the 3 byte value is set, extended it. 18005 */ 18006 if (count & 0x800000) { 18007 count |= 0xffffffffff000000; 18008 } 18009 return (count); 18010 } 18011 18012 static uint64_t 18013 st_get_cdb_g0_count(uchar_t *cdb) 18014 { 18015 uint64_t count; 18016 18017 count = 18018 cdb[2] << 16 | 18019 cdb[3] << 8 | 18020 cdb[4]; 18021 return (count); 18022 } 18023 18024 static uint64_t 18025 st_get_cdb_g5_rw_cnt(uchar_t *cdb) 18026 { 18027 uint64_t count; 18028 18029 if ((cdb[1]) & 1) { 18030 /* fixed block mode */ 18031 count = 18032 cdb[12] << 16 | 18033 cdb[13] << 8 | 18034 cdb[14]; 18035 } else { 18036 /* variable block mode */ 18037 count = 1; 18038 } 18039 return (count); 18040 } 18041 18042 static uint64_t 18043 st_get_no_count(uchar_t *cdb) 18044 { 18045 ASSERT(cdb[0] == SCMD_REWIND); 18046 return ((uint64_t)cdb[0]); 18047 } 18048 18049 static uint64_t 18050 st_get_load_options(uchar_t *cdb) 18051 { 18052 return ((uint64_t)(cdb[4] | (LD_HOLD << 1))); 18053 } 18054 18055 static uint64_t 18056 st_get_erase_options(uchar_t *cdb) 18057 { 18058 return (cdb[1] | (cdb[0] << 8)); 18059 } 18060 18061 static uint64_t 18062 st_get_cdb_g1_lba(uchar_t *cdb) 18063 { 18064 uint64_t lba; 18065 18066 lba = 18067 cdb[3] << 24 | 18068 cdb[4] << 16 | 18069 cdb[5] << 8 | 18070 cdb[6]; 18071 return (lba); 18072 } 18073 18074 static uint64_t 18075 st_get_cdb_g5_count(uchar_t *cdb) 18076 { 18077 uint64_t count = 18078 cdb[12] << 16 | 18079 cdb[13] << 8 | 18080 cdb[14]; 18081 18082 return (count); 18083 } 18084 18085 static uint64_t 18086 st_get_cdb_g4g5_cnt(uchar_t *cdb) 18087 { 18088 uint64_t lba; 18089 18090 lba = 18091 (uint64_t)cdb[4] << 56 | 18092 (uint64_t)cdb[5] << 48 | 18093 (uint64_t)cdb[6] << 40 | 18094 (uint64_t)cdb[7] << 32 | 18095 (uint64_t)cdb[8] << 24 | 18096 (uint64_t)cdb[9] << 16 | 18097 (uint64_t)cdb[10] << 8 | 18098 (uint64_t)cdb[11]; 18099 return (lba); 18100 } 18101 18102 static const cmd_attribute cmd_attributes[] = { 18103 { SCMD_READ, 18104 1, 0, 1, 0, 0, DIR_FORW, TRAN_READ, POS_EXPECTED, 18105 0, 0, 0, st_get_cdb_g0_rw_count }, 18106 { SCMD_WRITE, 18107 1, 0, 1, 1, 0, DIR_FORW, TRAN_WRTE, POS_EXPECTED, 18108 0, 0, 0, st_get_cdb_g0_rw_count }, 18109 { SCMD_TEST_UNIT_READY, 18110 0, 1, 0, 0, 0, DIR_NONE, TRAN_NONE, POS_EXPECTED, 18111 0, 0, 0 }, 18112 { SCMD_REWIND, 18113 1, 1, 1, 0, 0, DIR_REVC, TRAN_NONE, POS_EXPECTED, 18114 0, 0, 0, st_get_no_count }, 18115 { SCMD_REQUEST_SENSE, 18116 0, 0, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18117 0, 0, 0 }, 18118 { SCMD_READ_BLKLIM, 18119 0, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18120 0, 0, 0 }, 18121 { SCMD_READ_G4, 18122 1, 0, 1, 0, 1, DIR_FORW, TRAN_READ, POS_EXPECTED, 18123 0, 0, 0, st_get_cdb_g5_rw_cnt, st_get_cdb_g4g5_cnt }, 18124 { SCMD_WRITE_G4, 18125 1, 0, 1, 1, 1, DIR_FORW, TRAN_WRTE, POS_EXPECTED, 18126 0, 0, 0, st_get_cdb_g5_rw_cnt, st_get_cdb_g4g5_cnt }, 18127 { SCMD_READ_REVERSE, 18128 1, 0, 1, 1, 0, DIR_REVC, TRAN_READ, POS_EXPECTED, 18129 0, 0, 0, st_get_cdb_g0_rw_count }, 18130 { SCMD_READ_REVERSE_G4, 18131 1, 0, 1, 1, 1, DIR_REVC, TRAN_READ, POS_EXPECTED, 18132 0, 0, 0, st_get_cdb_g5_rw_cnt, st_get_cdb_g4g5_cnt }, 18133 { SCMD_WRITE_FILE_MARK, 18134 1, 0, 1, 1, 0, DIR_FORW, TRAN_NONE, POS_EXPECTED, 18135 0, 0, 0, st_get_cdb_g0_count }, 18136 { SCMD_WRITE_FILE_MARK_G4, 18137 1, 0, 1, 1, 1, DIR_FORW, TRAN_NONE, POS_EXPECTED, 18138 0, 0, 0, st_get_cdb_g5_count, st_get_cdb_g4g5_cnt }, 18139 { SCMD_SPACE, 18140 1, 0, 1, 0, 0, DIR_EITH, TRAN_NONE, POS_STARTING, 18141 0, 0, 0, st_get_cdb_g0_sign_count }, 18142 { SCMD_SPACE_G4, 18143 1, 0, 1, 0, 0, DIR_EITH, TRAN_NONE, POS_STARTING, 18144 0, 0, 0, st_get_cdb_g4g5_cnt }, 18145 { SCMD_INQUIRY, 18146 0, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18147 0, 0, 0 }, 18148 { SCMD_VERIFY_G0, 18149 1, 0, 1, 0, 0, DIR_FORW, TRAN_NONE, POS_EXPECTED, 18150 0, 0, 0, st_get_cdb_g0_rw_count }, 18151 { SCMD_VERIFY_G4, 18152 1, 0, 1, 0, 1, DIR_FORW, TRAN_NONE, POS_EXPECTED, 18153 0, 0, 0, st_get_cdb_g5_rw_cnt, st_get_cdb_g4g5_cnt }, 18154 { SCMD_RECOVER_BUF, 18155 1, 0, 1, 1, 0, DIR_REVC, TRAN_READ, POS_EXPECTED, 18156 0, 0, 0 }, 18157 { SCMD_MODE_SELECT, 18158 1, 1, 0, 0, 0, DIR_NONE, TRAN_WRTE, POS_EXPECTED, 18159 0, 0, 0 }, 18160 { SCMD_RESERVE, 18161 0, 1, 0, 0, 0, DIR_NONE, TRAN_NONE, POS_EXPECTED, 18162 0, 0, 0 }, 18163 { SCMD_RELEASE, 18164 0, 1, 0, 0, 0, DIR_NONE, TRAN_NONE, POS_EXPECTED, 18165 0, 0, 0 }, 18166 { SCMD_ERASE, 18167 1, 0, 1, 1, 0, DIR_NONE, TRAN_NONE, POS_EXPECTED, 18168 0, 0, 0, st_get_erase_options }, 18169 { SCMD_MODE_SENSE, 18170 1, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18171 0, 0, 0 }, 18172 { SCMD_LOAD, 18173 1, 1, 1, 0, 0, DIR_EITH, TRAN_NONE, POS_EXPECTED, 18174 0, 0, 0, st_get_load_options }, 18175 { SCMD_GDIAG, 18176 1, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18177 1, 0, 0 }, 18178 { SCMD_SDIAG, 18179 1, 0, 1, 1, 0, DIR_EITH, TRAN_WRTE, POS_EXPECTED, 18180 1, 0, 0 }, 18181 { SCMD_DOORLOCK, 18182 0, 1, 0, 0, 0, DIR_NONE, TRAN_NONE, POS_EXPECTED, 18183 0, 4, 3 }, 18184 { SCMD_LOCATE, 18185 1, 1, 1, 0, 0, DIR_EITH, TRAN_NONE, POS_EXPECTED, 18186 0, 0, 0, NULL, st_get_cdb_g1_lba }, 18187 { SCMD_READ_POSITION, 18188 1, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18189 0, 0, 0 }, 18190 { SCMD_WRITE_BUFFER, 18191 1, 0, 0, 0, 0, DIR_NONE, TRAN_WRTE, POS_EXPECTED, 18192 1, 0, 0 }, 18193 { SCMD_READ_BUFFER, 18194 1, 0, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18195 1, 0, 0 }, 18196 { SCMD_REPORT_DENSITIES, 18197 0, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18198 0, 0, 0 }, 18199 { SCMD_LOG_SELECT_G1, 18200 1, 1, 0, 0, 0, DIR_NONE, TRAN_WRTE, POS_EXPECTED, 18201 0, 0, 0 }, 18202 { SCMD_LOG_SENSE_G1, 18203 1, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18204 0, 0, 0 }, 18205 { SCMD_PRIN, 18206 0, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18207 0, 0, 0 }, 18208 { SCMD_PROUT, 18209 0, 1, 0, 0, 0, DIR_NONE, TRAN_WRTE, POS_EXPECTED, 18210 0, 0, 0 }, 18211 { SCMD_READ_ATTRIBUTE, 18212 1, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18213 0, 0, 0 }, 18214 { SCMD_WRITE_ATTRIBUTE, 18215 1, 1, 0, 0, 0, DIR_NONE, TRAN_WRTE, POS_EXPECTED, 18216 0, 0, 0 }, 18217 { SCMD_LOCATE_G4, 18218 1, 1, 1, 0, 0, DIR_EITH, TRAN_NONE, POS_EXPECTED, 18219 0, 0, 0, NULL, st_get_cdb_g4g5_cnt }, 18220 { SCMD_REPORT_LUNS, 18221 0, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18222 0, 0, 0 }, 18223 { SCMD_SVC_ACTION_IN_G5, 18224 1, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18225 0, 0, 0 }, 18226 { SCMD_MAINTENANCE_IN, 18227 1, 1, 0, 0, 0, DIR_NONE, TRAN_READ, POS_EXPECTED, 18228 0, 0, 0 }, 18229 { SCMD_MAINTENANCE_OUT, 18230 1, 1, 0, 0, 0, DIR_NONE, TRAN_WRTE, POS_EXPECTED, 18231 0, 0, 0 }, 18232 { 0xff, /* Default attribute for unsupported commands */ 18233 1, 0, 0, 0, 0, DIR_NONE, TRAN_NONE, POS_STARTING, 18234 1, 0, 0, NULL, NULL } 18235 }; 18236 18237 static const cmd_attribute * 18238 st_lookup_cmd_attribute(unsigned char cmd) 18239 { 18240 int i; 18241 cmd_attribute const *attribute; 18242 18243 for (i = 0; i < ST_NUM_MEMBERS(cmd_attributes); i++) { 18244 attribute = &cmd_attributes[i]; 18245 if (attribute->cmd == cmd) { 18246 return (attribute); 18247 } 18248 } 18249 ASSERT(attribute); 18250 return (attribute); 18251 } 18252 18253 static int 18254 st_reset(struct scsi_tape *un, int reset_type) 18255 { 18256 int rval; 18257 18258 ASSERT(MUTEX_HELD(&un->un_sd->sd_mutex)); 18259 18260 ST_FUNC(ST_DEVINFO, st_reset); 18261 un->un_rsvd_status |= ST_INITIATED_RESET; 18262 mutex_exit(ST_MUTEX); 18263 do { 18264 rval = scsi_reset(&un->un_sd->sd_address, reset_type); 18265 if (rval == 0) { 18266 switch (reset_type) { 18267 case RESET_LUN: 18268 ST_DEBUG3(ST_DEVINFO, st_label, CE_WARN, 18269 "LUN reset failed trying target reset"); 18270 reset_type = RESET_TARGET; 18271 break; 18272 case RESET_TARGET: 18273 ST_DEBUG3(ST_DEVINFO, st_label, CE_WARN, 18274 "target reset failed trying bus reset"); 18275 reset_type = RESET_BUS; 18276 break; 18277 case RESET_BUS: 18278 ST_DEBUG3(ST_DEVINFO, st_label, CE_WARN, 18279 "bus reset failed trying all reset"); 18280 reset_type = RESET_ALL; 18281 default: 18282 mutex_enter(ST_MUTEX); 18283 return (rval); 18284 } 18285 } 18286 } while (rval == 0); 18287 mutex_enter(ST_MUTEX); 18288 return (rval); 18289 } 18290 18291 18292 static void 18293 st_reset_notification(caddr_t arg) 18294 { 18295 struct scsi_tape *un = (struct scsi_tape *)arg; 18296 18297 ST_FUNC(ST_DEVINFO, st_reset_notification); 18298 mutex_enter(ST_MUTEX); 18299 18300 un->un_unit_attention_flags |= 2; 18301 if ((un->un_rsvd_status & (ST_RESERVE | ST_APPLICATION_RESERVATIONS)) == 18302 ST_RESERVE) { 18303 un->un_rsvd_status |= ST_LOST_RESERVE; 18304 ST_DEBUG2(ST_DEVINFO, st_label, CE_WARN, 18305 "Lost Reservation notification"); 18306 } else { 18307 ST_DEBUG2(ST_DEVINFO, st_label, CE_WARN, 18308 "reset notification"); 18309 } 18310 18311 if ((un->un_restore_pos == 0) && 18312 (un->un_state == ST_STATE_CLOSED) || 18313 (un->un_state == ST_STATE_OPEN_PENDING_IO) || 18314 (un->un_state == ST_STATE_CLOSING)) { 18315 un->un_restore_pos = 1; 18316 } 18317 ST_DEBUG6(ST_DEVINFO, st_label, CE_WARN, 18318 "reset and state was %d\n", un->un_state); 18319 mutex_exit(ST_MUTEX); 18320 } 18321