1 /*- 2 * Copyright (c) 2000 Michael Smith 3 * Copyright (c) 2003 Paul Saab 4 * Copyright (c) 2003 Vinod Kashyap 5 * Copyright (c) 2000 BSDi 6 * All rights reserved. 7 * 8 * Redistribution and use in source and binary forms, with or without 9 * modification, are permitted provided that the following conditions 10 * are met: 11 * 1. Redistributions of source code must retain the above copyright 12 * notice, this list of conditions and the following disclaimer. 13 * 2. Redistributions in binary form must reproduce the above copyright 14 * notice, this list of conditions and the following disclaimer in the 15 * documentation and/or other materials provided with the distribution. 16 * 17 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 18 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 19 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 20 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 21 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 22 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 23 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 24 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 25 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 26 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 27 * SUCH DAMAGE. 28 * 29 * $FreeBSD: src/sys/dev/twe/twe.c,v 1.1.2.10 2004/06/11 18:57:31 vkashyap Exp $ 30 * $DragonFly: src/sys/dev/raid/twe/twe.c,v 1.13 2006/02/17 19:18:06 dillon Exp $ 31 */ 32 33 /* 34 * Driver for the 3ware Escalade family of IDE RAID controllers. 35 */ 36 37 #include <dev/raid/twe/twe_compat.h> 38 #include <dev/raid/twe/twereg.h> 39 #define TWE_DEFINE_TABLES 40 #include <dev/raid/twe/twe_tables.h> 41 #include <dev/raid/twe/tweio.h> 42 #include <dev/raid/twe/twevar.h> 43 44 /* 45 * Command submission. 46 */ 47 static int twe_get_param_1(struct twe_softc *sc, int table_id, int param_id, u_int8_t *result); 48 static int twe_get_param_2(struct twe_softc *sc, int table_id, int param_id, u_int16_t *result); 49 static int twe_get_param_4(struct twe_softc *sc, int table_id, int param_id, u_int32_t *result); 50 static void *twe_get_param(struct twe_softc *sc, int table_id, int parameter_id, size_t size, 51 void (* func)(struct twe_request *tr)); 52 #ifdef TWE_SHUTDOWN_NOTIFICATION 53 static int twe_set_param_1(struct twe_softc *sc, int table_id, int param_id, u_int8_t value); 54 #endif 55 #if 0 56 static int twe_set_param_2(struct twe_softc *sc, int table_id, int param_id, u_int16_t value); 57 static int twe_set_param_4(struct twe_softc *sc, int table_id, int param_id, u_int32_t value); 58 #endif 59 static int twe_set_param(struct twe_softc *sc, int table_id, int param_id, int param_size, 60 void *data); 61 static int twe_init_connection(struct twe_softc *sc, int mode); 62 static int twe_wait_request(struct twe_request *tr); 63 static int twe_immediate_request(struct twe_request *tr); 64 static void twe_completeio(struct twe_request *tr); 65 static void twe_reset(struct twe_softc *sc); 66 static int twe_add_unit(struct twe_softc *sc, int unit); 67 static int twe_del_unit(struct twe_softc *sc, int unit); 68 69 /* 70 * Command I/O to controller. 71 */ 72 static void twe_done(struct twe_softc *sc); 73 static void twe_complete(struct twe_softc *sc); 74 static int twe_wait_status(struct twe_softc *sc, u_int32_t status, int timeout); 75 static int twe_drain_response_queue(struct twe_softc *sc); 76 static int twe_check_bits(struct twe_softc *sc, u_int32_t status_reg); 77 static int twe_soft_reset(struct twe_softc *sc); 78 79 /* 80 * Interrupt handling. 81 */ 82 static void twe_host_intr(struct twe_softc *sc); 83 static void twe_attention_intr(struct twe_softc *sc); 84 static void twe_command_intr(struct twe_softc *sc); 85 86 /* 87 * Asynchronous event handling. 88 */ 89 static int twe_fetch_aen(struct twe_softc *sc); 90 static void twe_handle_aen(struct twe_request *tr); 91 static void twe_enqueue_aen(struct twe_softc *sc, u_int16_t aen); 92 static u_int16_t twe_dequeue_aen(struct twe_softc *sc); 93 static int twe_drain_aen_queue(struct twe_softc *sc); 94 static int twe_find_aen(struct twe_softc *sc, u_int16_t aen); 95 96 /* 97 * Command buffer management. 98 */ 99 static int twe_get_request(struct twe_softc *sc, struct twe_request **tr); 100 static void twe_release_request(struct twe_request *tr); 101 102 /* 103 * Debugging. 104 */ 105 static char *twe_format_aen(struct twe_softc *sc, u_int16_t aen); 106 static int twe_report_request(struct twe_request *tr); 107 static void twe_panic(struct twe_softc *sc, char *reason); 108 109 /******************************************************************************** 110 ******************************************************************************** 111 Public Interfaces 112 ******************************************************************************** 113 ********************************************************************************/ 114 115 /******************************************************************************** 116 * Initialise the controller, set up driver data structures. 117 */ 118 int 119 twe_setup(struct twe_softc *sc) 120 { 121 struct twe_request *tr; 122 u_int32_t status_reg; 123 int i; 124 125 debug_called(4); 126 127 /* 128 * Initialise request queues. 129 */ 130 twe_initq_free(sc); 131 twe_initq_bio(sc); 132 twe_initq_ready(sc); 133 twe_initq_busy(sc); 134 twe_initq_complete(sc); 135 sc->twe_wait_aen = -1; 136 137 /* 138 * Allocate request structures up front. 139 */ 140 for (i = 0; i < TWE_Q_LENGTH; i++) { 141 if ((tr = twe_allocate_request(sc)) == NULL) 142 return(ENOMEM); 143 /* 144 * Set global defaults that won't change. 145 */ 146 tr->tr_command.generic.host_id = sc->twe_host_id; /* controller-assigned host ID */ 147 tr->tr_command.generic.request_id = i; /* our index number */ 148 sc->twe_lookup[i] = tr; 149 150 /* 151 * Put command onto the freelist. 152 */ 153 twe_release_request(tr); 154 } 155 156 /* 157 * Check status register for errors, clear them. 158 */ 159 status_reg = TWE_STATUS(sc); 160 twe_check_bits(sc, status_reg); 161 162 /* 163 * Wait for the controller to come ready. 164 */ 165 if (twe_wait_status(sc, TWE_STATUS_MICROCONTROLLER_READY, 60)) { 166 twe_printf(sc, "microcontroller not ready\n"); 167 return(ENXIO); 168 } 169 170 /* 171 * Disable interrupts from the card. 172 */ 173 twe_disable_interrupts(sc); 174 175 /* 176 * Soft reset the controller, look for the AEN acknowledging the reset, 177 * check for errors, drain the response queue. 178 */ 179 for (i = 0; i < TWE_MAX_RESET_TRIES; i++) { 180 181 if (i > 0) 182 twe_printf(sc, "reset %d failed, trying again\n", i); 183 184 if (!twe_soft_reset(sc)) 185 break; /* reset process complete */ 186 } 187 /* did we give up? */ 188 if (i >= TWE_MAX_RESET_TRIES) { 189 twe_printf(sc, "can't initialise controller, giving up\n"); 190 return(ENXIO); 191 } 192 193 return(0); 194 } 195 196 static int 197 twe_add_unit(struct twe_softc *sc, int unit) 198 { 199 struct twe_drive *dr; 200 int table; 201 u_int16_t dsize; 202 TWE_Param *drives = NULL, *param = NULL; 203 TWE_Unit_Descriptor *ud; 204 int error = 0; 205 206 if (unit < 0 || unit > TWE_MAX_UNITS) 207 return (EINVAL); 208 /* 209 * The controller is in a safe state, so try to find drives attached to it. 210 */ 211 if ((drives = twe_get_param(sc, TWE_PARAM_UNITSUMMARY, TWE_PARAM_UNITSUMMARY_Status, 212 TWE_MAX_UNITS, NULL)) == NULL) { 213 twe_printf(sc, "can't detect attached units\n"); 214 return (EIO); 215 } 216 217 dr = &sc->twe_drive[unit]; 218 /* check that the drive is online */ 219 if (!(drives->data[unit] & TWE_PARAM_UNITSTATUS_Online)) { 220 error = ENXIO; 221 goto out; 222 } 223 224 table = TWE_PARAM_UNITINFO + unit; 225 226 if (twe_get_param_4(sc, table, TWE_PARAM_UNITINFO_Capacity, &dr->td_size)) { 227 twe_printf(sc, "error fetching capacity for unit %d\n", unit); 228 error = EIO; 229 goto out; 230 } 231 if (twe_get_param_1(sc, table, TWE_PARAM_UNITINFO_Status, &dr->td_state)) { 232 twe_printf(sc, "error fetching state for unit %d\n", unit); 233 error = EIO; 234 goto out; 235 } 236 if (twe_get_param_2(sc, table, TWE_PARAM_UNITINFO_DescriptorSize, &dsize)) { 237 twe_printf(sc, "error fetching descriptor size for unit %d\n", unit); 238 error = EIO; 239 goto out; 240 } 241 if ((param = twe_get_param(sc, table, TWE_PARAM_UNITINFO_Descriptor, dsize - 3, NULL)) == NULL) { 242 twe_printf(sc, "error fetching descriptor for unit %d\n", unit); 243 error = EIO; 244 goto out; 245 } 246 ud = (TWE_Unit_Descriptor *)param->data; 247 dr->td_type = ud->configuration; 248 249 /* build synthetic geometry as per controller internal rules */ 250 if (dr->td_size > 0x200000) { 251 dr->td_heads = 255; 252 dr->td_sectors = 63; 253 } else { 254 dr->td_heads = 64; 255 dr->td_sectors = 32; 256 } 257 dr->td_cylinders = dr->td_size / (dr->td_heads * dr->td_sectors); 258 dr->td_twe_unit = unit; 259 260 error = twe_attach_drive(sc, dr); 261 262 out: 263 if (param != NULL) 264 free(param, M_DEVBUF); 265 if (drives != NULL) 266 free(drives, M_DEVBUF); 267 return (error); 268 } 269 270 static int 271 twe_del_unit(struct twe_softc *sc, int unit) 272 { 273 int error; 274 275 if (unit < 0 || unit >= TWE_MAX_UNITS) 276 return (ENXIO); 277 278 if (sc->twe_drive[unit].td_disk == NULL) 279 return (ENXIO); 280 281 error = twe_detach_drive(sc, unit); 282 return (error); 283 } 284 285 /******************************************************************************** 286 * Locate disk devices and attach children to them. 287 */ 288 void 289 twe_init(struct twe_softc *sc) 290 { 291 int i; 292 293 /* 294 * Scan for drives 295 */ 296 for (i = 0; i < TWE_MAX_UNITS; i++) 297 twe_add_unit(sc, i); 298 299 /* 300 * Initialise connection with controller. 301 */ 302 twe_init_connection(sc, TWE_INIT_MESSAGE_CREDITS); 303 304 #ifdef TWE_SHUTDOWN_NOTIFICATION 305 /* 306 * Tell the controller we support shutdown notification. 307 */ 308 twe_set_param_1(sc, TWE_PARAM_FEATURES, TWE_PARAM_FEATURES_DriverShutdown, 1); 309 #endif 310 311 /* 312 * Mark controller up and ready to run. 313 */ 314 sc->twe_state &= ~TWE_STATE_SHUTDOWN; 315 316 /* 317 * Finally enable interrupts. 318 */ 319 twe_enable_interrupts(sc); 320 } 321 322 /******************************************************************************** 323 * Stop the controller 324 */ 325 void 326 twe_deinit(struct twe_softc *sc) 327 { 328 /* 329 * Mark the controller as shutting down, and disable any further interrupts. 330 */ 331 sc->twe_state |= TWE_STATE_SHUTDOWN; 332 twe_disable_interrupts(sc); 333 334 #ifdef TWE_SHUTDOWN_NOTIFICATION 335 /* 336 * Disconnect from the controller 337 */ 338 twe_init_connection(sc, TWE_SHUTDOWN_MESSAGE_CREDITS); 339 #endif 340 } 341 342 /******************************************************************************* 343 * Take an interrupt, or be poked by other code to look for interrupt-worthy 344 * status. 345 */ 346 void 347 twe_intr(struct twe_softc *sc) 348 { 349 u_int32_t status_reg; 350 351 debug_called(4); 352 353 /* 354 * Collect current interrupt status. 355 */ 356 status_reg = TWE_STATUS(sc); 357 twe_check_bits(sc, status_reg); 358 359 /* 360 * Dispatch based on interrupt status 361 */ 362 if (status_reg & TWE_STATUS_HOST_INTERRUPT) 363 twe_host_intr(sc); 364 if (status_reg & TWE_STATUS_ATTENTION_INTERRUPT) 365 twe_attention_intr(sc); 366 if (status_reg & TWE_STATUS_COMMAND_INTERRUPT) 367 twe_command_intr(sc); 368 if (status_reg & TWE_STATUS_RESPONSE_INTERRUPT) 369 twe_done(sc); 370 } 371 372 /******************************************************************************** 373 * Pull as much work off the softc's work queue as possible and give it to the 374 * controller. 375 */ 376 void 377 twe_startio(struct twe_softc *sc) 378 { 379 struct twe_request *tr; 380 TWE_Command *cmd; 381 struct bio *bio; 382 int error; 383 384 debug_called(4); 385 386 if (sc->twe_state & (TWE_STATE_CTLR_BUSY | TWE_STATE_FRZN)) 387 return; 388 389 /* spin until something prevents us from doing any work */ 390 for (;;) { 391 392 /* try to get a command that's already ready to go */ 393 tr = twe_dequeue_ready(sc); 394 395 /* build a command from an outstanding bio */ 396 if (tr == NULL) { 397 398 /* get a command to handle the bio with */ 399 if (twe_get_request(sc, &tr)) 400 break; 401 402 /* see if there's work to be done */ 403 if ((bio = twe_dequeue_bio(sc)) == NULL) { 404 twe_release_request(tr); 405 break; 406 } 407 408 /* connect the bio to the command */ 409 tr->tr_complete = twe_completeio; 410 tr->tr_private = bio; 411 tr->tr_data = bio->bio_buf->b_data; 412 tr->tr_length = bio->bio_buf->b_bcount; 413 cmd = &tr->tr_command; 414 if (bio->bio_buf->b_flags & B_READ) { 415 tr->tr_flags |= TWE_CMD_DATAIN; 416 cmd->io.opcode = TWE_OP_READ; 417 } else { 418 tr->tr_flags |= TWE_CMD_DATAOUT; 419 cmd->io.opcode = TWE_OP_WRITE; 420 } 421 422 /* build a suitable I/O command (assumes 512-byte rounded transfers) */ 423 cmd->io.size = 3; 424 cmd->io.unit = ((struct twed_softc *)bio->bio_driver_info)->twed_drive->td_twe_unit; 425 cmd->io.block_count = (tr->tr_length + TWE_BLOCK_SIZE - 1) / TWE_BLOCK_SIZE; 426 cmd->io.lba = bio->bio_blkno; 427 } 428 429 /* did we find something to do? */ 430 if (tr == NULL) 431 break; 432 433 /* try to map and submit the command to controller */ 434 error = twe_map_request(tr); 435 436 if (error != 0) { 437 if (error == EBUSY) 438 break; 439 tr->tr_status = TWE_CMD_ERROR; 440 if (tr->tr_private != NULL) { 441 bio = (twe_bio *)tr->tr_private; 442 bio->bio_buf->b_error = error; 443 bio->bio_buf->b_flags |= B_ERROR; 444 tr->tr_private = NULL; 445 twed_intr(bio); 446 twe_release_request(tr); 447 } else if (tr->tr_flags & TWE_CMD_SLEEPER) 448 wakeup_one(tr); /* wakeup the sleeping owner */ 449 } 450 } 451 } 452 453 /******************************************************************************** 454 * Write blocks from memory to disk, for system crash dumps. 455 */ 456 int 457 twe_dump_blocks(struct twe_softc *sc, int unit, u_int32_t lba, void *data, int nblks) 458 { 459 struct twe_request *tr; 460 TWE_Command *cmd; 461 int error; 462 463 if (twe_get_request(sc, &tr)) 464 return(ENOMEM); 465 466 tr->tr_data = data; 467 tr->tr_status = TWE_CMD_SETUP; 468 tr->tr_length = nblks * TWE_BLOCK_SIZE; 469 tr->tr_flags = TWE_CMD_DATAOUT; 470 471 cmd = &tr->tr_command; 472 cmd->io.opcode = TWE_OP_WRITE; 473 cmd->io.size = 3; 474 cmd->io.unit = unit; 475 cmd->io.block_count = nblks; 476 cmd->io.lba = lba; 477 478 error = twe_immediate_request(tr); 479 if (error == 0) 480 if (twe_report_request(tr)) 481 error = EIO; 482 twe_release_request(tr); 483 return(error); 484 } 485 486 /******************************************************************************** 487 * Handle controller-specific control operations. 488 */ 489 int 490 twe_ioctl(struct twe_softc *sc, int cmd, void *addr) 491 { 492 struct twe_usercommand *tu = (struct twe_usercommand *)addr; 493 struct twe_paramcommand *tp = (struct twe_paramcommand *)addr; 494 struct twe_drivecommand *td = (struct twe_drivecommand *)addr; 495 union twe_statrequest *ts = (union twe_statrequest *)addr; 496 TWE_Param *param; 497 void *data; 498 unsigned short *aen_code = (unsigned short *) addr; 499 struct twe_request *tr; 500 u_int8_t srid; 501 int error; 502 503 error = 0; 504 switch(cmd) { 505 /* handle a command from userspace */ 506 case TWEIO_COMMAND: 507 /* get a request */ 508 while (twe_get_request(sc, &tr)) 509 tsleep(sc, 0, "twioctl", hz); 510 511 /* 512 * Save the command's request ID, copy the user-supplied command in, 513 * restore the request ID. 514 */ 515 srid = tr->tr_command.generic.request_id; 516 bcopy(&tu->tu_command, &tr->tr_command, sizeof(TWE_Command)); 517 tr->tr_command.generic.request_id = srid; 518 519 /* 520 * if there's a data buffer, allocate and copy it in. 521 * Must be in multipled of 512 bytes. 522 */ 523 tr->tr_length = (tu->tu_size + 511) & ~511; 524 if (tr->tr_length > 0) { 525 if ((tr->tr_data = malloc(tr->tr_length, M_DEVBUF, M_WAITOK)) == NULL) { 526 error = ENOMEM; 527 goto cmd_done; 528 } 529 if ((error = copyin(tu->tu_data, tr->tr_data, tu->tu_size)) != 0) 530 goto cmd_done; 531 tr->tr_flags |= TWE_CMD_DATAIN | TWE_CMD_DATAOUT; 532 } 533 534 /* run the command */ 535 error = twe_wait_request(tr); 536 if (error) 537 goto cmd_done; 538 539 /* copy the command out again */ 540 bcopy(&tr->tr_command, &tu->tu_command, sizeof(TWE_Command)); 541 542 /* if there was a data buffer, copy it out */ 543 if (tr->tr_length > 0) 544 error = copyout(tr->tr_data, tu->tu_data, tu->tu_size); 545 546 cmd_done: 547 /* free resources */ 548 if (tr->tr_data != NULL) 549 free(tr->tr_data, M_DEVBUF); 550 if (tr != NULL) 551 twe_release_request(tr); 552 553 break; 554 555 /* fetch statistics counter */ 556 case TWEIO_STATS: 557 switch (ts->ts_item) { 558 #ifdef TWE_PERFORMANCE_MONITOR 559 case TWEQ_FREE: 560 case TWEQ_BIO: 561 case TWEQ_READY: 562 case TWEQ_BUSY: 563 case TWEQ_COMPLETE: 564 bcopy(&sc->twe_qstat[ts->ts_item], &ts->ts_qstat, sizeof(struct twe_qstat)); 565 break; 566 #endif 567 default: 568 error = ENOENT; 569 break; 570 } 571 break; 572 573 /* poll for an AEN */ 574 case TWEIO_AEN_POLL: 575 *aen_code = twe_dequeue_aen(sc); 576 break; 577 578 /* wait for another AEN to show up */ 579 case TWEIO_AEN_WAIT: 580 crit_enter(); 581 while ((*aen_code = twe_dequeue_aen(sc)) == TWE_AEN_QUEUE_EMPTY) { 582 error = tsleep(&sc->twe_aen_queue, PCATCH, "tweaen", 0); 583 if (error == EINTR) 584 break; 585 } 586 crit_exit(); 587 break; 588 589 case TWEIO_GET_PARAM: 590 if ((param = twe_get_param(sc, tp->tp_table_id, tp->tp_param_id, tp->tp_size, NULL)) == NULL) { 591 twe_printf(sc, "TWEIO_GET_PARAM failed for 0x%x/0x%x/%d\n", 592 tp->tp_table_id, tp->tp_param_id, tp->tp_size); 593 error = EINVAL; 594 } else { 595 if (param->parameter_size_bytes > tp->tp_size) { 596 twe_printf(sc, "TWEIO_GET_PARAM parameter too large (%d > %d)\n", 597 param->parameter_size_bytes, tp->tp_size); 598 error = EFAULT; 599 } else { 600 error = copyout(param->data, tp->tp_data, param->parameter_size_bytes); 601 } 602 free(param, M_DEVBUF); 603 } 604 break; 605 606 case TWEIO_SET_PARAM: 607 if ((data = malloc(tp->tp_size, M_DEVBUF, M_WAITOK)) == NULL) { 608 error = ENOMEM; 609 } else { 610 error = copyin(tp->tp_data, data, tp->tp_size); 611 if (error == 0) 612 error = twe_set_param(sc, tp->tp_table_id, tp->tp_param_id, tp->tp_size, data); 613 free(data, M_DEVBUF); 614 } 615 break; 616 617 case TWEIO_RESET: 618 twe_reset(sc); 619 break; 620 621 case TWEIO_ADD_UNIT: 622 error = twe_add_unit(sc, td->td_unit); 623 break; 624 625 case TWEIO_DEL_UNIT: 626 error = twe_del_unit(sc, td->td_unit); 627 break; 628 629 /* XXX implement ATA PASSTHROUGH */ 630 631 /* nothing we understand */ 632 default: 633 error = ENOTTY; 634 } 635 636 return(error); 637 } 638 639 /******************************************************************************** 640 * Enable the useful interrupts from the controller. 641 */ 642 void 643 twe_enable_interrupts(struct twe_softc *sc) 644 { 645 sc->twe_state |= TWE_STATE_INTEN; 646 TWE_CONTROL(sc, 647 TWE_CONTROL_CLEAR_ATTENTION_INTERRUPT | 648 TWE_CONTROL_UNMASK_RESPONSE_INTERRUPT | 649 TWE_CONTROL_ENABLE_INTERRUPTS); 650 } 651 652 /******************************************************************************** 653 * Disable interrupts from the controller. 654 */ 655 void 656 twe_disable_interrupts(struct twe_softc *sc) 657 { 658 TWE_CONTROL(sc, TWE_CONTROL_DISABLE_INTERRUPTS); 659 sc->twe_state &= ~TWE_STATE_INTEN; 660 } 661 662 /******************************************************************************** 663 ******************************************************************************** 664 Command Submission 665 ******************************************************************************** 666 ********************************************************************************/ 667 668 /******************************************************************************** 669 * Read integer parameter table entries. 670 */ 671 static int 672 twe_get_param_1(struct twe_softc *sc, int table_id, int param_id, u_int8_t *result) 673 { 674 TWE_Param *param; 675 676 if ((param = twe_get_param(sc, table_id, param_id, 1, NULL)) == NULL) 677 return(ENOENT); 678 *result = *(u_int8_t *)param->data; 679 free(param, M_DEVBUF); 680 return(0); 681 } 682 683 static int 684 twe_get_param_2(struct twe_softc *sc, int table_id, int param_id, u_int16_t *result) 685 { 686 TWE_Param *param; 687 688 if ((param = twe_get_param(sc, table_id, param_id, 2, NULL)) == NULL) 689 return(ENOENT); 690 *result = *(u_int16_t *)param->data; 691 free(param, M_DEVBUF); 692 return(0); 693 } 694 695 static int 696 twe_get_param_4(struct twe_softc *sc, int table_id, int param_id, u_int32_t *result) 697 { 698 TWE_Param *param; 699 700 if ((param = twe_get_param(sc, table_id, param_id, 4, NULL)) == NULL) 701 return(ENOENT); 702 *result = *(u_int32_t *)param->data; 703 free(param, M_DEVBUF); 704 return(0); 705 } 706 707 /******************************************************************************** 708 * Perform a TWE_OP_GET_PARAM command. If a callback function is provided, it 709 * will be called with the command when it's completed. If no callback is 710 * provided, we will wait for the command to complete and then return just the data. 711 * The caller is responsible for freeing the data when done with it. 712 */ 713 static void * 714 twe_get_param(struct twe_softc *sc, int table_id, int param_id, size_t param_size, 715 void (* func)(struct twe_request *tr)) 716 { 717 struct twe_request *tr; 718 TWE_Command *cmd; 719 TWE_Param *param; 720 int error; 721 722 debug_called(4); 723 724 tr = NULL; 725 param = NULL; 726 727 /* get a command */ 728 if (twe_get_request(sc, &tr)) 729 goto err; 730 731 /* get a buffer */ 732 param = (TWE_Param *)malloc(TWE_SECTOR_SIZE, M_DEVBUF, M_INTWAIT); 733 tr->tr_data = param; 734 tr->tr_length = TWE_SECTOR_SIZE; 735 tr->tr_flags = TWE_CMD_DATAIN | TWE_CMD_DATAOUT; 736 737 /* build the command for the controller */ 738 cmd = &tr->tr_command; 739 cmd->param.opcode = TWE_OP_GET_PARAM; 740 cmd->param.size = 2; 741 cmd->param.unit = 0; 742 cmd->param.param_count = 1; 743 744 /* fill in the outbound parameter data */ 745 param->table_id = table_id; 746 param->parameter_id = param_id; 747 param->parameter_size_bytes = param_size; 748 749 /* submit the command and either wait or let the callback handle it */ 750 if (func == NULL) { 751 /* XXX could use twe_wait_request here if interrupts were enabled? */ 752 error = twe_immediate_request(tr); 753 if (error == 0) { 754 if (twe_report_request(tr)) 755 goto err; 756 } 757 else 758 goto err; 759 twe_release_request(tr); 760 return(param); 761 } else { 762 tr->tr_complete = func; 763 error = twe_map_request(tr); 764 if ((error == 0) || (error == EBUSY)) 765 return(func); 766 } 767 768 /* something failed */ 769 err: 770 debug(1, "failed"); 771 if (tr != NULL) 772 twe_release_request(tr); 773 if (param != NULL) 774 free(param, M_DEVBUF); 775 return(NULL); 776 } 777 778 /******************************************************************************** 779 * Set integer parameter table entries. 780 */ 781 #ifdef TWE_SHUTDOWN_NOTIFICATION 782 static int 783 twe_set_param_1(struct twe_softc *sc, int table_id, int param_id, u_int8_t value) 784 { 785 return(twe_set_param(sc, table_id, param_id, sizeof(value), &value)); 786 } 787 #endif 788 789 #if 0 790 static int 791 twe_set_param_2(struct twe_softc *sc, int table_id, int param_id, u_int16_t value) 792 { 793 return(twe_set_param(sc, table_id, param_id, sizeof(value), &value)); 794 } 795 796 static int 797 twe_set_param_4(struct twe_softc *sc, int table_id, int param_id, u_int32_t value) 798 { 799 return(twe_set_param(sc, table_id, param_id, sizeof(value), &value)); 800 } 801 #endif 802 803 /******************************************************************************** 804 * Perform a TWE_OP_SET_PARAM command, returns nonzero on error. 805 */ 806 static int 807 twe_set_param(struct twe_softc *sc, int table_id, int param_id, int param_size, void *data) 808 { 809 struct twe_request *tr; 810 TWE_Command *cmd; 811 TWE_Param *param; 812 int error; 813 814 debug_called(4); 815 816 tr = NULL; 817 param = NULL; 818 error = ENOMEM; 819 820 /* get a command */ 821 if (twe_get_request(sc, &tr)) 822 goto out; 823 824 /* get a buffer */ 825 param = (TWE_Param *)malloc(TWE_SECTOR_SIZE, M_DEVBUF, M_INTWAIT); 826 tr->tr_data = param; 827 tr->tr_length = TWE_SECTOR_SIZE; 828 tr->tr_flags = TWE_CMD_DATAIN | TWE_CMD_DATAOUT; 829 830 /* build the command for the controller */ 831 cmd = &tr->tr_command; 832 cmd->param.opcode = TWE_OP_SET_PARAM; 833 cmd->param.size = 2; 834 cmd->param.unit = 0; 835 cmd->param.param_count = 1; 836 837 /* fill in the outbound parameter data */ 838 param->table_id = table_id; 839 param->parameter_id = param_id; 840 param->parameter_size_bytes = param_size; 841 bcopy(data, param->data, param_size); 842 843 /* XXX could use twe_wait_request here if interrupts were enabled? */ 844 error = twe_immediate_request(tr); 845 if (error == 0) { 846 if (twe_report_request(tr)) 847 error = EIO; 848 } 849 850 out: 851 if (tr != NULL) 852 twe_release_request(tr); 853 if (param != NULL) 854 free(param, M_DEVBUF); 855 return(error); 856 } 857 858 /******************************************************************************** 859 * Perform a TWE_OP_INIT_CONNECTION command, returns nonzero on error. 860 * 861 * Typically called with interrupts disabled. 862 */ 863 static int 864 twe_init_connection(struct twe_softc *sc, int mode) 865 { 866 struct twe_request *tr; 867 TWE_Command *cmd; 868 int error; 869 870 debug_called(4); 871 872 /* get a command */ 873 if (twe_get_request(sc, &tr)) 874 return(NULL); 875 876 /* build the command */ 877 cmd = &tr->tr_command; 878 cmd->initconnection.opcode = TWE_OP_INIT_CONNECTION; 879 cmd->initconnection.size = 3; 880 cmd->initconnection.host_id = 0; 881 cmd->initconnection.message_credits = mode; 882 cmd->initconnection.response_queue_pointer = 0; 883 884 /* submit the command */ 885 error = twe_immediate_request(tr); 886 twe_release_request(tr); 887 888 if (mode == TWE_INIT_MESSAGE_CREDITS) 889 sc->twe_host_id = cmd->initconnection.host_id; 890 return(error); 891 } 892 893 /******************************************************************************** 894 * Start the command (tr) and sleep waiting for it to complete. 895 * 896 * Successfully completed commands are dequeued. 897 */ 898 static int 899 twe_wait_request(struct twe_request *tr) 900 { 901 debug_called(4); 902 903 tr->tr_flags |= TWE_CMD_SLEEPER; 904 tr->tr_status = TWE_CMD_BUSY; 905 twe_enqueue_ready(tr); 906 twe_startio(tr->tr_sc); 907 crit_enter(); 908 while (tr->tr_status == TWE_CMD_BUSY) 909 tsleep(tr, 0, "twewait", 0); 910 crit_exit(); 911 912 return(tr->tr_status != TWE_CMD_COMPLETE); 913 } 914 915 /******************************************************************************** 916 * Start the command (tr) and busy-wait for it to complete. 917 * This should only be used when interrupts are actually disabled (although it 918 * will work if they are not). 919 */ 920 static int 921 twe_immediate_request(struct twe_request *tr) 922 { 923 int error; 924 925 debug_called(4); 926 927 tr->tr_status = TWE_CMD_BUSY; 928 if ((error = twe_map_request(tr)) != 0) 929 if (error != EBUSY) 930 return(error); 931 while (tr->tr_status == TWE_CMD_BUSY){ 932 twe_done(tr->tr_sc); 933 } 934 return(tr->tr_status != TWE_CMD_COMPLETE); 935 } 936 937 /******************************************************************************** 938 * Handle completion of an I/O command. 939 */ 940 static void 941 twe_completeio(struct twe_request *tr) 942 { 943 struct twe_softc *sc = tr->tr_sc; 944 struct bio *bio = (twe_bio *)tr->tr_private; 945 struct buf *bp = bio->bio_buf; 946 947 debug_called(4); 948 949 if (tr->tr_status == TWE_CMD_COMPLETE) { 950 if (tr->tr_command.generic.status) 951 if (twe_report_request(tr)) { 952 bp->b_error = EIO; 953 bp->b_flags |= B_ERROR; 954 } 955 } else { 956 twe_panic(sc, "twe_completeio on incomplete command"); 957 } 958 tr->tr_private = NULL; 959 twed_intr(bio); 960 twe_release_request(tr); 961 } 962 963 /******************************************************************************** 964 * Reset the controller and pull all the active commands back onto the ready 965 * queue. Used to restart a controller that's exhibiting bad behaviour. 966 */ 967 static void 968 twe_reset(struct twe_softc *sc) 969 { 970 struct twe_request *tr; 971 int i; 972 973 /* 974 * Sleep for a short period to allow AENs to be signalled. 975 */ 976 tsleep(sc, 0, "twereset", hz); 977 978 /* 979 * Disable interrupts from the controller, and mask any accidental entry 980 * into our interrupt handler. 981 */ 982 twe_printf(sc, "controller reset in progress...\n"); 983 twe_disable_interrupts(sc); 984 crit_enter(); 985 986 /* 987 * Try to soft-reset the controller. 988 */ 989 for (i = 0; i < TWE_MAX_RESET_TRIES; i++) { 990 991 if (i > 0) 992 twe_printf(sc, "reset %d failed, trying again\n", i); 993 994 if (!twe_soft_reset(sc)) 995 break; /* reset process complete */ 996 } 997 /* did we give up? */ 998 if (i >= TWE_MAX_RESET_TRIES) { 999 twe_printf(sc, "can't reset controller, giving up\n"); 1000 goto out; 1001 } 1002 1003 /* 1004 * Move all of the commands that were busy back to the ready queue. 1005 */ 1006 i = 0; 1007 while ((tr = twe_dequeue_busy(sc)) != NULL) { 1008 twe_enqueue_ready(tr); 1009 i++; 1010 } 1011 1012 /* 1013 * Kick the controller to start things going again, then re-enable interrupts. 1014 */ 1015 twe_startio(sc); 1016 twe_enable_interrupts(sc); 1017 twe_printf(sc, "controller reset done, %d commands restarted\n", i); 1018 1019 out: 1020 crit_exit(); 1021 twe_enable_interrupts(sc); 1022 } 1023 1024 /******************************************************************************** 1025 ******************************************************************************** 1026 Command I/O to Controller 1027 ******************************************************************************** 1028 ********************************************************************************/ 1029 1030 /******************************************************************************** 1031 * Try to deliver (tr) to the controller. 1032 * 1033 * Can be called at any interrupt level, with or without interrupts enabled. 1034 */ 1035 int 1036 twe_start(struct twe_request *tr) 1037 { 1038 struct twe_softc *sc = tr->tr_sc; 1039 int i, done; 1040 u_int32_t status_reg; 1041 1042 debug_called(4); 1043 1044 /* mark the command as currently being processed */ 1045 tr->tr_status = TWE_CMD_BUSY; 1046 1047 /* 1048 * Spin briefly waiting for the controller to come ready 1049 * 1050 * XXX it might be more efficient to return EBUSY immediately 1051 * and let the command be rescheduled. 1052 */ 1053 for (i = 100000, done = 0; (i > 0) && !done; i--) { 1054 crit_enter(); 1055 1056 /* check to see if we can post a command */ 1057 status_reg = TWE_STATUS(sc); 1058 twe_check_bits(sc, status_reg); 1059 1060 if (!(status_reg & TWE_STATUS_COMMAND_QUEUE_FULL)) { 1061 /* move command to work queue */ 1062 twe_enqueue_busy(tr); 1063 TWE_COMMAND_QUEUE(sc, tr->tr_cmdphys); 1064 done = 1; 1065 #ifdef TWE_DEBUG 1066 if (tr->tr_complete != NULL) { 1067 debug(3, "queued request %d with callback %p", tr->tr_command.generic.request_id, tr->tr_complete); 1068 } else if (tr->tr_flags & TWE_CMD_SLEEPER) { 1069 debug(3, "queued request %d with wait channel %p", tr->tr_command.generic.request_id, tr); 1070 } else { 1071 debug(3, "queued request %d for polling caller", tr->tr_command.generic.request_id); 1072 } 1073 #endif 1074 } 1075 crit_exit(); /* drop critical section to allow completion interrupts */ 1076 } 1077 1078 /* command is enqueued */ 1079 if (done) 1080 return(0); 1081 1082 /* 1083 * We couldn't get the controller to take the command; try submitting it again later. 1084 * This should only happen if something is wrong with the controller, or if we have 1085 * overestimated the number of commands it can accept. (Should we actually reject 1086 * the command at this point?) 1087 */ 1088 return(EBUSY); 1089 } 1090 1091 /******************************************************************************** 1092 * Poll the controller (sc) for completed commands. 1093 * 1094 * Can be called at any interrupt level, with or without interrupts enabled. 1095 */ 1096 static void 1097 twe_done(struct twe_softc *sc) 1098 { 1099 TWE_Response_Queue rq; 1100 struct twe_request *tr; 1101 int found; 1102 u_int32_t status_reg; 1103 1104 debug_called(5); 1105 1106 /* loop collecting completed commands */ 1107 found = 0; 1108 crit_enter(); 1109 for (;;) { 1110 status_reg = TWE_STATUS(sc); 1111 twe_check_bits(sc, status_reg); /* XXX should this fail? */ 1112 1113 if (!(status_reg & TWE_STATUS_RESPONSE_QUEUE_EMPTY)) { 1114 found = 1; 1115 rq = TWE_RESPONSE_QUEUE(sc); 1116 tr = sc->twe_lookup[rq.u.response_id]; /* find command */ 1117 if (tr->tr_status != TWE_CMD_BUSY) 1118 twe_printf(sc, "completion event for nonbusy command\n"); 1119 tr->tr_status = TWE_CMD_COMPLETE; 1120 debug(3, "completed request id %d with status %d", 1121 tr->tr_command.generic.request_id, tr->tr_command.generic.status); 1122 /* move to completed queue */ 1123 twe_remove_busy(tr); 1124 twe_enqueue_complete(tr); 1125 sc->twe_state &= ~TWE_STATE_CTLR_BUSY; 1126 } else { 1127 break; /* no response ready */ 1128 } 1129 } 1130 crit_exit(); 1131 1132 /* if we've completed any commands, try posting some more */ 1133 if (found) 1134 twe_startio(sc); 1135 1136 /* handle completion and timeouts */ 1137 twe_complete(sc); /* XXX use deferred completion? */ 1138 } 1139 1140 /******************************************************************************** 1141 * Perform post-completion processing for commands on (sc). 1142 * 1143 * This is split from twe_done as it can be safely deferred and run at a lower 1144 * priority level should facilities for such a thing become available. 1145 */ 1146 static void 1147 twe_complete(struct twe_softc *sc) 1148 { 1149 struct twe_request *tr; 1150 1151 debug_called(5); 1152 1153 /* 1154 * Pull commands off the completed list, dispatch them appropriately 1155 */ 1156 while ((tr = twe_dequeue_complete(sc)) != NULL) { 1157 1158 /* unmap the command's data buffer */ 1159 twe_unmap_request(tr); 1160 1161 /* dispatch to suit command originator */ 1162 if (tr->tr_complete != NULL) { /* completion callback */ 1163 debug(2, "call completion handler %p", tr->tr_complete); 1164 tr->tr_complete(tr); 1165 1166 } else if (tr->tr_flags & TWE_CMD_SLEEPER) { /* caller is asleep waiting */ 1167 debug(2, "wake up command owner on %p", tr); 1168 wakeup_one(tr); 1169 1170 } else { /* caller is polling command */ 1171 debug(2, "command left for owner"); 1172 } 1173 } 1174 } 1175 1176 /******************************************************************************** 1177 * Wait for (status) to be set in the controller status register for up to 1178 * (timeout) seconds. Returns 0 if found, nonzero if we time out. 1179 * 1180 * Note: this busy-waits, rather than sleeping, since we may be called with 1181 * eg. clock interrupts masked. 1182 */ 1183 static int 1184 twe_wait_status(struct twe_softc *sc, u_int32_t status, int timeout) 1185 { 1186 time_t expiry; 1187 u_int32_t status_reg; 1188 1189 debug_called(4); 1190 1191 expiry = time_second + timeout; 1192 1193 do { 1194 status_reg = TWE_STATUS(sc); 1195 if (status_reg & status) /* got the required bit(s)? */ 1196 return(0); 1197 DELAY(100000); 1198 } while (time_second <= expiry); 1199 1200 return(1); 1201 } 1202 1203 /******************************************************************************** 1204 * Drain the response queue, which may contain responses to commands we know 1205 * nothing about. 1206 */ 1207 static int 1208 twe_drain_response_queue(struct twe_softc *sc) 1209 { 1210 TWE_Response_Queue rq; 1211 u_int32_t status_reg; 1212 1213 debug_called(4); 1214 1215 for (;;) { /* XXX give up eventually? */ 1216 status_reg = TWE_STATUS(sc); 1217 if (twe_check_bits(sc, status_reg)) 1218 return(1); 1219 if (status_reg & TWE_STATUS_RESPONSE_QUEUE_EMPTY) 1220 return(0); 1221 rq = TWE_RESPONSE_QUEUE(sc); 1222 } 1223 } 1224 1225 /******************************************************************************** 1226 * Soft-reset the controller 1227 */ 1228 static int 1229 twe_soft_reset(struct twe_softc *sc) 1230 { 1231 u_int32_t status_reg; 1232 1233 debug_called(2); 1234 1235 TWE_SOFT_RESET(sc); 1236 1237 if (twe_wait_status(sc, TWE_STATUS_ATTENTION_INTERRUPT, 30)) { 1238 twe_printf(sc, "no attention interrupt\n"); 1239 return(1); 1240 } 1241 TWE_CONTROL(sc, TWE_CONTROL_CLEAR_ATTENTION_INTERRUPT); 1242 if (twe_drain_aen_queue(sc)) { 1243 twe_printf(sc, "can't drain AEN queue\n"); 1244 return(1); 1245 } 1246 if (twe_find_aen(sc, TWE_AEN_SOFT_RESET)) { 1247 twe_printf(sc, "reset not reported\n"); 1248 return(1); 1249 } 1250 status_reg = TWE_STATUS(sc); 1251 if (TWE_STATUS_ERRORS(status_reg) || twe_check_bits(sc, status_reg)) { 1252 twe_printf(sc, "controller errors detected\n"); 1253 return(1); 1254 } 1255 if (twe_drain_response_queue(sc)) { 1256 twe_printf(sc, "can't drain response queue\n"); 1257 return(1); 1258 } 1259 return(0); 1260 } 1261 1262 /******************************************************************************** 1263 ******************************************************************************** 1264 Interrupt Handling 1265 ******************************************************************************** 1266 ********************************************************************************/ 1267 1268 /******************************************************************************** 1269 * Host interrupt. 1270 * 1271 * XXX what does this mean? 1272 */ 1273 static void 1274 twe_host_intr(struct twe_softc *sc) 1275 { 1276 debug_called(4); 1277 1278 twe_printf(sc, "host interrupt\n"); 1279 TWE_CONTROL(sc, TWE_CONTROL_CLEAR_HOST_INTERRUPT); 1280 } 1281 1282 /******************************************************************************** 1283 * Attention interrupt. 1284 * 1285 * Signalled when the controller has one or more AENs for us. 1286 */ 1287 static void 1288 twe_attention_intr(struct twe_softc *sc) 1289 { 1290 debug_called(4); 1291 1292 /* instigate a poll for AENs */ 1293 if (twe_fetch_aen(sc)) { 1294 twe_printf(sc, "error polling for signalled AEN\n"); 1295 } else { 1296 TWE_CONTROL(sc, TWE_CONTROL_CLEAR_ATTENTION_INTERRUPT); 1297 } 1298 } 1299 1300 /******************************************************************************** 1301 * Command interrupt. 1302 * 1303 * Signalled when the controller can handle more commands. 1304 */ 1305 static void 1306 twe_command_intr(struct twe_softc *sc) 1307 { 1308 debug_called(4); 1309 1310 /* 1311 * We don't use this, rather we try to submit commands when we receive 1312 * them, and when other commands have completed. Mask it so we don't get 1313 * another one. 1314 twe_printf(sc, "command interrupt\n"); 1315 */ 1316 TWE_CONTROL(sc, TWE_CONTROL_MASK_COMMAND_INTERRUPT); 1317 } 1318 1319 /******************************************************************************** 1320 ******************************************************************************** 1321 Asynchronous Event Handling 1322 ******************************************************************************** 1323 ********************************************************************************/ 1324 1325 /******************************************************************************** 1326 * Request an AEN from the controller. 1327 */ 1328 static int 1329 twe_fetch_aen(struct twe_softc *sc) 1330 { 1331 1332 debug_called(4); 1333 1334 if ((twe_get_param(sc, TWE_PARAM_AEN, TWE_PARAM_AEN_UnitCode, 2, twe_handle_aen)) == NULL) 1335 return(EIO); 1336 return(0); 1337 } 1338 1339 /******************************************************************************** 1340 * Handle an AEN returned by the controller. 1341 */ 1342 static void 1343 twe_handle_aen(struct twe_request *tr) 1344 { 1345 struct twe_softc *sc = tr->tr_sc; 1346 TWE_Param *param; 1347 u_int16_t aen; 1348 1349 debug_called(4); 1350 1351 /* XXX check for command success somehow? */ 1352 1353 param = (TWE_Param *)tr->tr_data; 1354 aen = *(u_int16_t *)(param->data); 1355 1356 free(tr->tr_data, M_DEVBUF); 1357 twe_release_request(tr); 1358 twe_enqueue_aen(sc, aen); 1359 1360 /* XXX poll for more AENs? */ 1361 } 1362 1363 /******************************************************************************** 1364 * Pull AENs out of the controller and park them in the queue, in a context where 1365 * interrupts aren't active. Return nonzero if we encounter any errors in the 1366 * process of obtaining all the available AENs. 1367 */ 1368 static int 1369 twe_drain_aen_queue(struct twe_softc *sc) 1370 { 1371 u_int16_t aen; 1372 1373 for (;;) { 1374 if (twe_get_param_2(sc, TWE_PARAM_AEN, TWE_PARAM_AEN_UnitCode, &aen)) 1375 return(1); 1376 if (aen == TWE_AEN_QUEUE_EMPTY) 1377 return(0); 1378 twe_enqueue_aen(sc, aen); 1379 } 1380 } 1381 1382 /******************************************************************************** 1383 * Push an AEN that we've received onto the queue. 1384 * 1385 * Note that we have to lock this against reentrance, since it may be called 1386 * from both interrupt and non-interrupt context. 1387 * 1388 * If someone is waiting for the AEN we have, wake them up. 1389 */ 1390 static void 1391 twe_enqueue_aen(struct twe_softc *sc, u_int16_t aen) 1392 { 1393 char *msg; 1394 int next, nextnext; 1395 1396 debug_called(4); 1397 1398 if ((msg = twe_format_aen(sc, aen)) != NULL) 1399 twe_printf(sc, "AEN: <%s>\n", msg); 1400 1401 crit_enter(); 1402 /* enqueue the AEN */ 1403 next = ((sc->twe_aen_head + 1) % TWE_Q_LENGTH); 1404 nextnext = ((sc->twe_aen_head + 2) % TWE_Q_LENGTH); 1405 1406 /* check to see if this is the last free slot, and subvert the AEN if it is */ 1407 if (nextnext == sc->twe_aen_tail) 1408 aen = TWE_AEN_QUEUE_FULL; 1409 1410 /* look to see if there's room for this AEN */ 1411 if (next != sc->twe_aen_tail) { 1412 sc->twe_aen_queue[sc->twe_aen_head] = aen; 1413 sc->twe_aen_head = next; 1414 } 1415 1416 /* wake up anyone asleep on the queue */ 1417 wakeup(&sc->twe_aen_queue); 1418 1419 /* anyone looking for this AEN? */ 1420 if (sc->twe_wait_aen == aen) { 1421 sc->twe_wait_aen = -1; 1422 wakeup(&sc->twe_wait_aen); 1423 } 1424 crit_exit(); 1425 } 1426 1427 /******************************************************************************** 1428 * Pop an AEN off the queue, or return -1 if there are none left. 1429 * 1430 * We are more or less interrupt-safe, so don't block interrupts. 1431 */ 1432 static u_int16_t 1433 twe_dequeue_aen(struct twe_softc *sc) 1434 { 1435 u_int16_t result; 1436 1437 debug_called(4); 1438 1439 if (sc->twe_aen_tail == sc->twe_aen_head) { 1440 result = TWE_AEN_QUEUE_EMPTY; 1441 } else { 1442 result = sc->twe_aen_queue[sc->twe_aen_tail]; 1443 sc->twe_aen_tail = ((sc->twe_aen_tail + 1) % TWE_Q_LENGTH); 1444 } 1445 return(result); 1446 } 1447 1448 /******************************************************************************** 1449 * Check to see if the requested AEN is in the queue. 1450 * 1451 * XXX we could probably avoid masking interrupts here 1452 */ 1453 static int 1454 twe_find_aen(struct twe_softc *sc, u_int16_t aen) 1455 { 1456 int i, missing; 1457 1458 missing = 1; 1459 crit_enter(); 1460 for (i = sc->twe_aen_tail; (i != sc->twe_aen_head) && missing; i = (i + 1) % TWE_Q_LENGTH) { 1461 if (sc->twe_aen_queue[i] == aen) 1462 missing = 0; 1463 } 1464 crit_exit(); 1465 return(missing); 1466 } 1467 1468 1469 #if 0 /* currently unused */ 1470 /******************************************************************************** 1471 * Sleep waiting for at least (timeout) seconds until we see (aen) as 1472 * requested. Returns nonzero on timeout or failure. 1473 * 1474 * XXX: this should not be used in cases where there may be more than one sleeper 1475 * without a mechanism for registering multiple sleepers. 1476 */ 1477 static int 1478 twe_wait_aen(struct twe_softc *sc, int aen, int timeout) 1479 { 1480 time_t expiry; 1481 int found; 1482 1483 debug_called(4); 1484 1485 expiry = time_second + timeout; 1486 found = 0; 1487 1488 crit_enter(); 1489 sc->twe_wait_aen = aen; 1490 do { 1491 twe_fetch_aen(sc); 1492 tsleep(&sc->twe_wait_aen, PZERO, "twewaen", hz); 1493 if (sc->twe_wait_aen == -1) 1494 found = 1; 1495 } while ((time_second <= expiry) && !found); 1496 crit_exit(); 1497 return(!found); 1498 } 1499 #endif 1500 1501 /******************************************************************************** 1502 ******************************************************************************** 1503 Command Buffer Management 1504 ******************************************************************************** 1505 ********************************************************************************/ 1506 1507 /******************************************************************************** 1508 * Get a new command buffer. 1509 * 1510 * This will return NULL if all command buffers are in use. 1511 */ 1512 static int 1513 twe_get_request(struct twe_softc *sc, struct twe_request **tr) 1514 { 1515 debug_called(4); 1516 1517 /* try to reuse an old buffer */ 1518 *tr = twe_dequeue_free(sc); 1519 1520 /* initialise some fields to their defaults */ 1521 if (*tr != NULL) { 1522 (*tr)->tr_data = NULL; 1523 (*tr)->tr_private = NULL; 1524 (*tr)->tr_status = TWE_CMD_SETUP; /* command is in setup phase */ 1525 (*tr)->tr_flags = 0; 1526 (*tr)->tr_complete = NULL; 1527 (*tr)->tr_command.generic.status = 0; /* before submission to controller */ 1528 (*tr)->tr_command.generic.flags = 0; /* not used */ 1529 } 1530 return(*tr == NULL); 1531 } 1532 1533 /******************************************************************************** 1534 * Release a command buffer for reuse. 1535 * 1536 */ 1537 static void 1538 twe_release_request(struct twe_request *tr) 1539 { 1540 debug_called(4); 1541 1542 if (tr->tr_private != NULL) 1543 twe_panic(tr->tr_sc, "tr_private != NULL"); 1544 twe_enqueue_free(tr); 1545 } 1546 1547 /******************************************************************************** 1548 ******************************************************************************** 1549 Debugging 1550 ******************************************************************************** 1551 ********************************************************************************/ 1552 1553 /******************************************************************************** 1554 * Print some information about the controller 1555 */ 1556 void 1557 twe_describe_controller(struct twe_softc *sc) 1558 { 1559 TWE_Param *p[6]; 1560 u_int8_t ports; 1561 u_int32_t size; 1562 int i; 1563 1564 debug_called(2); 1565 1566 /* get the port count */ 1567 twe_get_param_1(sc, TWE_PARAM_CONTROLLER, TWE_PARAM_CONTROLLER_PortCount, &ports); 1568 1569 /* get version strings */ 1570 p[0] = twe_get_param(sc, TWE_PARAM_VERSION, TWE_PARAM_VERSION_FW, 16, NULL); 1571 p[1] = twe_get_param(sc, TWE_PARAM_VERSION, TWE_PARAM_VERSION_BIOS, 16, NULL); 1572 1573 if (p[0] && p[1]) 1574 twe_printf(sc, "%d ports, Firmware %.16s, BIOS %.16s\n", ports, p[0]->data, p[1]->data); 1575 if (bootverbose) { 1576 p[2] = twe_get_param(sc, TWE_PARAM_VERSION, TWE_PARAM_VERSION_Mon, 16, NULL); 1577 p[3] = twe_get_param(sc, TWE_PARAM_VERSION, TWE_PARAM_VERSION_PCB, 8, NULL); 1578 p[4] = twe_get_param(sc, TWE_PARAM_VERSION, TWE_PARAM_VERSION_ATA, 8, NULL); 1579 p[5] = twe_get_param(sc, TWE_PARAM_VERSION, TWE_PARAM_VERSION_PCI, 8, NULL); 1580 1581 if (p[2] && p[3] && p[4] && p[5]) 1582 twe_printf(sc, "Monitor %.16s, PCB %.8s, Achip %.8s, Pchip %.8s\n", 1583 p[2]->data, p[3]->data, p[4]->data, p[5]->data); 1584 1585 if (p[2]) 1586 free(p[2], M_DEVBUF); 1587 if (p[3]) 1588 free(p[3], M_DEVBUF); 1589 if (p[4]) 1590 free(p[4], M_DEVBUF); 1591 if (p[5]) 1592 free(p[5], M_DEVBUF); 1593 } 1594 if (p[0]) 1595 free(p[0], M_DEVBUF); 1596 if (p[1]) 1597 free(p[1], M_DEVBUF); 1598 1599 /* print attached drives */ 1600 if (bootverbose) { 1601 p[0] = twe_get_param(sc, TWE_PARAM_DRIVESUMMARY, TWE_PARAM_DRIVESUMMARY_Status, 16, NULL); 1602 for (i = 0; i < ports; i++) { 1603 if (p[0]->data[i] != TWE_PARAM_DRIVESTATUS_Present) 1604 continue; 1605 twe_get_param_4(sc, TWE_PARAM_DRIVEINFO + i, TWE_PARAM_DRIVEINFO_Size, &size); 1606 p[1] = twe_get_param(sc, TWE_PARAM_DRIVEINFO + i, TWE_PARAM_DRIVEINFO_Model, 40, NULL); 1607 if (p[1] != NULL) { 1608 twe_printf(sc, "port %d: %.40s %dMB\n", i, p[1]->data, size / 2048); 1609 free(p[1], M_DEVBUF); 1610 } else { 1611 twe_printf(sc, "port %d, drive status unavailable\n", i); 1612 } 1613 } 1614 if (p[0]) 1615 free(p[0], M_DEVBUF); 1616 } 1617 } 1618 1619 1620 /******************************************************************************** 1621 * Look up a text description of a numeric code and return a pointer to same. 1622 */ 1623 char * 1624 twe_describe_code(struct twe_code_lookup *table, u_int32_t code) 1625 { 1626 int i; 1627 1628 for (i = 0; table[i].string != NULL; i++) 1629 if (table[i].code == code) 1630 return(table[i].string); 1631 return(table[i+1].string); 1632 } 1633 1634 1635 /******************************************************************************** 1636 * Complain if the status bits aren't what we're expecting. 1637 * 1638 * Rate-limit the complaints to at most one of each every five seconds, but 1639 * always return the correct status. 1640 */ 1641 static int 1642 twe_check_bits(struct twe_softc *sc, u_int32_t status_reg) 1643 { 1644 int result; 1645 static time_t lastwarn[2] = {0, 0}; 1646 1647 /* 1648 * This can be a little problematic, as twe_panic may call twe_reset if 1649 * TWE_DEBUG is not set, which will call us again as part of the soft reset. 1650 */ 1651 if ((status_reg & TWE_STATUS_PANIC_BITS) != 0) { 1652 twe_printf(sc, "FATAL STATUS BIT(S) %b\n", status_reg & TWE_STATUS_PANIC_BITS, 1653 TWE_STATUS_BITS_DESCRIPTION); 1654 twe_panic(sc, "fatal status bits"); 1655 } 1656 1657 result = 0; 1658 if ((status_reg & TWE_STATUS_EXPECTED_BITS) != TWE_STATUS_EXPECTED_BITS) { 1659 if (time_second > (lastwarn[0] + 5)) { 1660 twe_printf(sc, "missing expected status bit(s) %b\n", ~status_reg & TWE_STATUS_EXPECTED_BITS, 1661 TWE_STATUS_BITS_DESCRIPTION); 1662 lastwarn[0] = time_second; 1663 } 1664 result = 1; 1665 } 1666 1667 if ((status_reg & TWE_STATUS_UNEXPECTED_BITS) != 0) { 1668 if (time_second > (lastwarn[1] + 5)) { 1669 twe_printf(sc, "unexpected status bit(s) %b\n", status_reg & TWE_STATUS_UNEXPECTED_BITS, 1670 TWE_STATUS_BITS_DESCRIPTION); 1671 lastwarn[1] = time_second; 1672 } 1673 result = 1; 1674 if (status_reg & TWE_STATUS_PCI_PARITY_ERROR) { 1675 twe_printf(sc, "PCI parity error: Reseat card, move card or buggy device present."); 1676 twe_clear_pci_parity_error(sc); 1677 } 1678 if (status_reg & TWE_STATUS_PCI_ABORT) { 1679 twe_printf(sc, "PCI abort, clearing."); 1680 twe_clear_pci_abort(sc); 1681 } 1682 } 1683 1684 return(result); 1685 } 1686 1687 /******************************************************************************** 1688 * Return a string describing (aen). 1689 * 1690 * The low 8 bits of the aen are the code, the high 8 bits give the unit number 1691 * where an AEN is specific to a unit. 1692 * 1693 * Note that we could expand this routine to handle eg. up/downgrading the status 1694 * of a drive if we had some idea of what the drive's initial status was. 1695 */ 1696 1697 static char * 1698 twe_format_aen(struct twe_softc *sc, u_int16_t aen) 1699 { 1700 static char buf[80]; 1701 device_t child; 1702 char *code, *msg; 1703 1704 code = twe_describe_code(twe_table_aen, TWE_AEN_CODE(aen)); 1705 msg = code + 2; 1706 1707 switch (*code) { 1708 case 'q': 1709 if (!bootverbose) 1710 return(NULL); 1711 /* FALLTHROUGH */ 1712 case 'a': 1713 return(msg); 1714 1715 case 'c': 1716 if ((child = sc->twe_drive[TWE_AEN_UNIT(aen)].td_disk) != NULL) { 1717 sprintf(buf, "twed%d: %s", device_get_unit(child), msg); 1718 } else { 1719 sprintf(buf, "twe%d: %s for unknown unit %d", device_get_unit(sc->twe_dev), 1720 msg, TWE_AEN_UNIT(aen)); 1721 } 1722 return(buf); 1723 1724 case 'p': 1725 sprintf(buf, "twe%d: port %d: %s", device_get_unit(sc->twe_dev), TWE_AEN_UNIT(aen), 1726 msg); 1727 return(buf); 1728 1729 1730 case 'x': 1731 default: 1732 break; 1733 } 1734 sprintf(buf, "unknown AEN 0x%x", aen); 1735 return(buf); 1736 } 1737 1738 /******************************************************************************** 1739 * Print a diagnostic if the status of the command warrants it, and return 1740 * either zero (command was ok) or nonzero (command failed). 1741 */ 1742 static int 1743 twe_report_request(struct twe_request *tr) 1744 { 1745 struct twe_softc *sc = tr->tr_sc; 1746 TWE_Command *cmd = &tr->tr_command; 1747 int result = 0; 1748 1749 /* 1750 * Check the command status value and handle accordingly. 1751 */ 1752 if (cmd->generic.status == TWE_STATUS_RESET) { 1753 /* 1754 * The status code 0xff requests a controller reset. 1755 */ 1756 twe_printf(sc, "command returned with controller reset request\n"); 1757 twe_reset(sc); 1758 result = 1; 1759 } else if (cmd->generic.status > TWE_STATUS_FATAL) { 1760 /* 1761 * Fatal errors that don't require controller reset. 1762 * 1763 * We know a few special flags values. 1764 */ 1765 switch (cmd->generic.flags) { 1766 case 0x1b: 1767 device_printf(sc->twe_drive[cmd->generic.unit].td_disk, 1768 "drive timeout"); 1769 break; 1770 case 0x51: 1771 device_printf(sc->twe_drive[cmd->generic.unit].td_disk, 1772 "unrecoverable drive error"); 1773 break; 1774 default: 1775 device_printf(sc->twe_drive[cmd->generic.unit].td_disk, 1776 "controller error - %s (flags = 0x%x)\n", 1777 twe_describe_code(twe_table_status, cmd->generic.status), 1778 cmd->generic.flags); 1779 result = 1; 1780 } 1781 } else if (cmd->generic.status > TWE_STATUS_WARNING) { 1782 /* 1783 * Warning level status. 1784 */ 1785 device_printf(sc->twe_drive[cmd->generic.unit].td_disk, 1786 "warning - %s (flags = 0x%x)\n", 1787 twe_describe_code(twe_table_status, cmd->generic.status), 1788 cmd->generic.flags); 1789 } else if (cmd->generic.status > 0x40) { 1790 /* 1791 * Info level status. 1792 */ 1793 device_printf(sc->twe_drive[cmd->generic.unit].td_disk, 1794 "attention - %s (flags = 0x%x)\n", 1795 twe_describe_code(twe_table_status, cmd->generic.status), 1796 cmd->generic.flags); 1797 } 1798 1799 return(result); 1800 } 1801 1802 /******************************************************************************** 1803 * Print some controller state to aid in debugging error/panic conditions 1804 */ 1805 void 1806 twe_print_controller(struct twe_softc *sc) 1807 { 1808 u_int32_t status_reg; 1809 1810 status_reg = TWE_STATUS(sc); 1811 twe_printf(sc, "status %b\n", status_reg, TWE_STATUS_BITS_DESCRIPTION); 1812 twe_printf(sc, " current max min\n"); 1813 twe_printf(sc, "free %04d %04d %04d\n", sc->twe_qstat[TWEQ_FREE].q_length, sc->twe_qstat[TWEQ_FREE].q_max, sc->twe_qstat[TWEQ_FREE].q_min); 1814 twe_printf(sc, "ready %04d %04d %04d\n", sc->twe_qstat[TWEQ_READY].q_length, sc->twe_qstat[TWEQ_READY].q_max, sc->twe_qstat[TWEQ_READY].q_min); 1815 twe_printf(sc, "busy %04d %04d %04d\n", sc->twe_qstat[TWEQ_BUSY].q_length, sc->twe_qstat[TWEQ_BUSY].q_max, sc->twe_qstat[TWEQ_BUSY].q_min); 1816 twe_printf(sc, "complete %04d %04d %04d\n", sc->twe_qstat[TWEQ_COMPLETE].q_length, sc->twe_qstat[TWEQ_COMPLETE].q_max, sc->twe_qstat[TWEQ_COMPLETE].q_min); 1817 twe_printf(sc, "bioq %04d %04d %04d\n", sc->twe_qstat[TWEQ_BIO].q_length, sc->twe_qstat[TWEQ_BIO].q_max, sc->twe_qstat[TWEQ_BIO].q_min); 1818 twe_printf(sc, "AEN queue head %d tail %d\n", sc->twe_aen_head, sc->twe_aen_tail); 1819 } 1820 1821 static void 1822 twe_panic(struct twe_softc *sc, char *reason) 1823 { 1824 twe_print_controller(sc); 1825 #ifdef TWE_DEBUG 1826 panic(reason); 1827 #else 1828 twe_reset(sc); 1829 #endif 1830 } 1831 1832 #if 0 1833 /******************************************************************************** 1834 * Print a request/command in human-readable format. 1835 */ 1836 static void 1837 twe_print_request(struct twe_request *tr) 1838 { 1839 struct twe_softc *sc = tr->tr_sc; 1840 TWE_Command *cmd = &tr->tr_command; 1841 int i; 1842 1843 twe_printf(sc, "CMD: request_id %d opcode <%s> size %d unit %d host_id %d\n", 1844 cmd->generic.request_id, twe_describe_code(twe_table_opcode, cmd->generic.opcode), cmd->generic.size, 1845 cmd->generic.unit, cmd->generic.host_id); 1846 twe_printf(sc, " status %d flags 0x%x count %d sgl_offset %d\n", 1847 cmd->generic.status, cmd->generic.flags, cmd->generic.count, cmd->generic.sgl_offset); 1848 1849 switch(cmd->generic.opcode) { /* XXX add more opcodes? */ 1850 case TWE_OP_READ: 1851 case TWE_OP_WRITE: 1852 twe_printf(sc, " lba %d\n", cmd->io.lba); 1853 for (i = 0; (i < TWE_MAX_SGL_LENGTH) && (cmd->io.sgl[i].length != 0); i++) 1854 twe_printf(sc, " %d: 0x%x/%d\n", 1855 i, cmd->io.sgl[i].address, cmd->io.sgl[i].length); 1856 break; 1857 1858 case TWE_OP_GET_PARAM: 1859 case TWE_OP_SET_PARAM: 1860 for (i = 0; (i < TWE_MAX_SGL_LENGTH) && (cmd->param.sgl[i].length != 0); i++) 1861 twe_printf(sc, " %d: 0x%x/%d\n", 1862 i, cmd->param.sgl[i].address, cmd->param.sgl[i].length); 1863 break; 1864 1865 case TWE_OP_INIT_CONNECTION: 1866 twe_printf(sc, " response queue pointer 0x%x\n", 1867 cmd->initconnection.response_queue_pointer); 1868 break; 1869 1870 default: 1871 break; 1872 } 1873 twe_printf(sc, " tr_command %p/0x%x tr_data %p/0x%x,%d\n", 1874 tr, tr->tr_cmdphys, tr->tr_data, tr->tr_dataphys, tr->tr_length); 1875 twe_printf(sc, " tr_status %d tr_flags 0x%x tr_complete %p tr_private %p\n", 1876 tr->tr_status, tr->tr_flags, tr->tr_complete, tr->tr_private); 1877 } 1878 1879 #endif 1880