1 /*- 2 * Copyright (c) 1999 Michael Smith 3 * All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions 7 * are met: 8 * 1. Redistributions of source code must retain the above copyright 9 * notice, this list of conditions and the following disclaimer. 10 * 2. Redistributions in binary form must reproduce the above copyright 11 * notice, this list of conditions and the following disclaimer in the 12 * documentation and/or other materials provided with the distribution. 13 * 14 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 15 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 18 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24 * SUCH DAMAGE. 25 * 26 * $FreeBSD$ 27 */ 28 29 /* 30 * Driver for the Mylex DAC960 family of RAID controllers. 31 */ 32 33 #include <sys/param.h> 34 #include <sys/systm.h> 35 #include <sys/malloc.h> 36 #include <sys/kernel.h> 37 38 #include <sys/bus.h> 39 #include <sys/conf.h> 40 #include <sys/devicestat.h> 41 #include <sys/disk.h> 42 #include <sys/stat.h> 43 44 #include <machine/resource.h> 45 #include <machine/bus_memio.h> 46 #include <machine/bus_pio.h> 47 #include <machine/bus.h> 48 #include <machine/clock.h> 49 #include <sys/rman.h> 50 51 #include <dev/mlx/mlx_compat.h> 52 #include <dev/mlx/mlxio.h> 53 #include <dev/mlx/mlxvar.h> 54 #include <dev/mlx/mlxreg.h> 55 56 #define MLX_CDEV_MAJOR 130 57 58 static struct cdevsw mlx_cdevsw = { 59 /* open */ mlx_open, 60 /* close */ mlx_close, 61 /* read */ noread, 62 /* write */ nowrite, 63 /* ioctl */ mlx_ioctl, 64 /* poll */ nopoll, 65 /* mmap */ nommap, 66 /* strategy */ nostrategy, 67 /* name */ "mlx", 68 /* maj */ MLX_CDEV_MAJOR, 69 /* dump */ nodump, 70 /* psize */ nopsize, 71 /* flags */ 0, 72 }; 73 74 devclass_t mlx_devclass; 75 76 /* 77 * Per-interface accessor methods 78 */ 79 static int mlx_v3_tryqueue(struct mlx_softc *sc, struct mlx_command *mc); 80 static int mlx_v3_findcomplete(struct mlx_softc *sc, u_int8_t *slot, u_int16_t *status); 81 static void mlx_v3_intaction(struct mlx_softc *sc, int action); 82 static int mlx_v3_fw_handshake(struct mlx_softc *sc, int *error, int *param1, int *param2); 83 84 static int mlx_v4_tryqueue(struct mlx_softc *sc, struct mlx_command *mc); 85 static int mlx_v4_findcomplete(struct mlx_softc *sc, u_int8_t *slot, u_int16_t *status); 86 static void mlx_v4_intaction(struct mlx_softc *sc, int action); 87 static int mlx_v4_fw_handshake(struct mlx_softc *sc, int *error, int *param1, int *param2); 88 89 static int mlx_v5_tryqueue(struct mlx_softc *sc, struct mlx_command *mc); 90 static int mlx_v5_findcomplete(struct mlx_softc *sc, u_int8_t *slot, u_int16_t *status); 91 static void mlx_v5_intaction(struct mlx_softc *sc, int action); 92 static int mlx_v5_fw_handshake(struct mlx_softc *sc, int *error, int *param1, int *param2); 93 94 /* 95 * Status monitoring 96 */ 97 static void mlx_periodic(void *data); 98 static void mlx_periodic_enquiry(struct mlx_command *mc); 99 static void mlx_periodic_eventlog_poll(struct mlx_softc *sc); 100 static void mlx_periodic_eventlog_respond(struct mlx_command *mc); 101 static void mlx_periodic_rebuild(struct mlx_command *mc); 102 103 /* 104 * Channel Pause 105 */ 106 static void mlx_pause_action(struct mlx_softc *sc); 107 static void mlx_pause_done(struct mlx_command *mc); 108 109 /* 110 * Command submission. 111 */ 112 static void *mlx_enquire(struct mlx_softc *sc, int command, size_t bufsize, 113 void (*complete)(struct mlx_command *mc)); 114 static int mlx_flush(struct mlx_softc *sc); 115 static int mlx_check(struct mlx_softc *sc, int drive); 116 static int mlx_rebuild(struct mlx_softc *sc, int channel, int target); 117 static int mlx_wait_command(struct mlx_command *mc); 118 static int mlx_poll_command(struct mlx_command *mc); 119 static void mlx_startio(struct mlx_softc *sc); 120 static void mlx_completeio(struct mlx_command *mc); 121 static int mlx_user_command(struct mlx_softc *sc, struct mlx_usercommand *mu); 122 123 /* 124 * Command buffer allocation. 125 */ 126 static struct mlx_command *mlx_alloccmd(struct mlx_softc *sc); 127 static void mlx_releasecmd(struct mlx_command *mc); 128 static void mlx_freecmd(struct mlx_command *mc); 129 130 /* 131 * Command management. 132 */ 133 static int mlx_getslot(struct mlx_command *mc); 134 static void mlx_mapcmd(struct mlx_command *mc); 135 static void mlx_unmapcmd(struct mlx_command *mc); 136 static int mlx_start(struct mlx_command *mc); 137 static int mlx_done(struct mlx_softc *sc); 138 static void mlx_complete(struct mlx_softc *sc); 139 140 /* 141 * Debugging. 142 */ 143 static char *mlx_diagnose_command(struct mlx_command *mc); 144 static void mlx_describe_controller(struct mlx_softc *sc); 145 static int mlx_fw_message(struct mlx_softc *sc, int status, int param1, int param2); 146 147 /* 148 * Utility functions. 149 */ 150 static struct mlx_sysdrive *mlx_findunit(struct mlx_softc *sc, int unit); 151 152 /******************************************************************************** 153 ******************************************************************************** 154 Public Interfaces 155 ******************************************************************************** 156 ********************************************************************************/ 157 158 /******************************************************************************** 159 * Free all of the resources associated with (sc) 160 * 161 * Should not be called if the controller is active. 162 */ 163 void 164 mlx_free(struct mlx_softc *sc) 165 { 166 struct mlx_command *mc; 167 168 debug_called(1); 169 170 /* cancel status timeout */ 171 untimeout(mlx_periodic, sc, sc->mlx_timeout); 172 173 /* throw away any command buffers */ 174 while ((mc = TAILQ_FIRST(&sc->mlx_freecmds)) != NULL) { 175 TAILQ_REMOVE(&sc->mlx_freecmds, mc, mc_link); 176 mlx_freecmd(mc); 177 } 178 179 /* destroy data-transfer DMA tag */ 180 if (sc->mlx_buffer_dmat) 181 bus_dma_tag_destroy(sc->mlx_buffer_dmat); 182 183 /* free and destroy DMA memory and tag for s/g lists */ 184 if (sc->mlx_sgtable) 185 bus_dmamem_free(sc->mlx_sg_dmat, sc->mlx_sgtable, sc->mlx_sg_dmamap); 186 if (sc->mlx_sg_dmat) 187 bus_dma_tag_destroy(sc->mlx_sg_dmat); 188 189 /* disconnect the interrupt handler */ 190 if (sc->mlx_intr) 191 bus_teardown_intr(sc->mlx_dev, sc->mlx_irq, sc->mlx_intr); 192 if (sc->mlx_irq != NULL) 193 bus_release_resource(sc->mlx_dev, SYS_RES_IRQ, 0, sc->mlx_irq); 194 195 /* destroy the parent DMA tag */ 196 if (sc->mlx_parent_dmat) 197 bus_dma_tag_destroy(sc->mlx_parent_dmat); 198 199 /* release the register window mapping */ 200 if (sc->mlx_mem != NULL) 201 bus_release_resource(sc->mlx_dev, sc->mlx_mem_type, sc->mlx_mem_rid, sc->mlx_mem); 202 203 /* free controller enquiry data */ 204 if (sc->mlx_enq2 != NULL) 205 free(sc->mlx_enq2, M_DEVBUF); 206 207 /* destroy control device */ 208 if (sc->mlx_dev_t != (dev_t)NULL) 209 destroy_dev(sc->mlx_dev_t); 210 } 211 212 /******************************************************************************** 213 * Map the scatter/gather table into bus space 214 */ 215 static void 216 mlx_dma_map_sg(void *arg, bus_dma_segment_t *segs, int nseg, int error) 217 { 218 struct mlx_softc *sc = (struct mlx_softc *)arg; 219 220 debug_called(1); 221 222 /* save base of s/g table's address in bus space */ 223 sc->mlx_sgbusaddr = segs->ds_addr; 224 } 225 226 static int 227 mlx_sglist_map(struct mlx_softc *sc) 228 { 229 size_t segsize; 230 int error, ncmd; 231 232 debug_called(1); 233 234 /* destroy any existing mappings */ 235 if (sc->mlx_sgtable) 236 bus_dmamem_free(sc->mlx_sg_dmat, sc->mlx_sgtable, sc->mlx_sg_dmamap); 237 if (sc->mlx_sg_dmat) 238 bus_dma_tag_destroy(sc->mlx_sg_dmat); 239 240 /* 241 * Create a single tag describing a region large enough to hold all of 242 * the s/g lists we will need. If we're called early on, we don't know how 243 * many commands we're going to be asked to support, so only allocate enough 244 * for a couple. 245 */ 246 if (sc->mlx_enq2 == NULL) { 247 ncmd = 2; 248 } else { 249 ncmd = sc->mlx_enq2->me_max_commands; 250 } 251 segsize = sizeof(struct mlx_sgentry) * MLX_NSEG * ncmd; 252 error = bus_dma_tag_create(sc->mlx_parent_dmat, /* parent */ 253 1, 0, /* alignment, boundary */ 254 BUS_SPACE_MAXADDR, /* lowaddr */ 255 BUS_SPACE_MAXADDR, /* highaddr */ 256 NULL, NULL, /* filter, filterarg */ 257 segsize, 1, /* maxsize, nsegments */ 258 BUS_SPACE_MAXSIZE_32BIT, /* maxsegsize */ 259 0, /* flags */ 260 &sc->mlx_sg_dmat); 261 if (error != 0) { 262 device_printf(sc->mlx_dev, "can't allocate scatter/gather DMA tag\n"); 263 return(ENOMEM); 264 } 265 266 /* 267 * Allocate enough s/g maps for all commands and permanently map them into 268 * controller-visible space. 269 * 270 * XXX this assumes we can get enough space for all the s/g maps in one 271 * contiguous slab. We may need to switch to a more complex arrangement where 272 * we allocate in smaller chunks and keep a lookup table from slot to bus address. 273 */ 274 error = bus_dmamem_alloc(sc->mlx_sg_dmat, (void **)&sc->mlx_sgtable, BUS_DMA_NOWAIT, &sc->mlx_sg_dmamap); 275 if (error) { 276 device_printf(sc->mlx_dev, "can't allocate s/g table\n"); 277 return(ENOMEM); 278 } 279 bus_dmamap_load(sc->mlx_sg_dmat, sc->mlx_sg_dmamap, sc->mlx_sgtable, segsize, mlx_dma_map_sg, sc, 0); 280 return(0); 281 } 282 283 /******************************************************************************** 284 * Initialise the controller and softc 285 */ 286 int 287 mlx_attach(struct mlx_softc *sc) 288 { 289 struct mlx_enquiry_old *meo; 290 int rid, error, fwminor, hscode, hserror, hsparam1, hsparam2, hsmsg; 291 292 debug_called(1); 293 294 /* 295 * Initialise per-controller queues. 296 */ 297 TAILQ_INIT(&sc->mlx_work); 298 TAILQ_INIT(&sc->mlx_freecmds); 299 MLX_BIO_QINIT(sc->mlx_bioq); 300 301 /* 302 * Select accessor methods based on controller interface type. 303 */ 304 switch(sc->mlx_iftype) { 305 case MLX_IFTYPE_2: 306 case MLX_IFTYPE_3: 307 sc->mlx_tryqueue = mlx_v3_tryqueue; 308 sc->mlx_findcomplete = mlx_v3_findcomplete; 309 sc->mlx_intaction = mlx_v3_intaction; 310 sc->mlx_fw_handshake = mlx_v3_fw_handshake; 311 break; 312 case MLX_IFTYPE_4: 313 sc->mlx_tryqueue = mlx_v4_tryqueue; 314 sc->mlx_findcomplete = mlx_v4_findcomplete; 315 sc->mlx_intaction = mlx_v4_intaction; 316 sc->mlx_fw_handshake = mlx_v4_fw_handshake; 317 break; 318 case MLX_IFTYPE_5: 319 sc->mlx_tryqueue = mlx_v5_tryqueue; 320 sc->mlx_findcomplete = mlx_v5_findcomplete; 321 sc->mlx_intaction = mlx_v5_intaction; 322 sc->mlx_fw_handshake = mlx_v5_fw_handshake; 323 break; 324 default: 325 mlx_free(sc); 326 return(ENXIO); /* should never happen */ 327 } 328 329 /* disable interrupts before we start talking to the controller */ 330 sc->mlx_intaction(sc, MLX_INTACTION_DISABLE); 331 332 /* 333 * Wait for the controller to come ready, handshake with the firmware if required. 334 * This is typically only necessary on platforms where the controller BIOS does not 335 * run. 336 */ 337 hsmsg = 0; 338 DELAY(1000); 339 while ((hscode = sc->mlx_fw_handshake(sc, &hserror, &hsparam1, &hsparam2)) != 0) { 340 /* report first time around... */ 341 if (hsmsg == 0) { 342 device_printf(sc->mlx_dev, "controller initialisation in progress...\n"); 343 hsmsg = 1; 344 } 345 /* did we get a real message? */ 346 if (hscode == 2) { 347 hscode = mlx_fw_message(sc, hserror, hsparam1, hsparam2); 348 /* fatal initialisation error? */ 349 if (hscode != 0) { 350 mlx_free(sc); 351 return(ENXIO); 352 } 353 } 354 } 355 if (hsmsg == 1) 356 device_printf(sc->mlx_dev, "initialisation complete.\n"); 357 358 /* 359 * Allocate and connect our interrupt. 360 */ 361 rid = 0; 362 sc->mlx_irq = bus_alloc_resource(sc->mlx_dev, SYS_RES_IRQ, &rid, 0, ~0, 1, RF_SHAREABLE | RF_ACTIVE); 363 if (sc->mlx_irq == NULL) { 364 device_printf(sc->mlx_dev, "can't allocate interrupt\n"); 365 mlx_free(sc); 366 return(ENXIO); 367 } 368 error = bus_setup_intr(sc->mlx_dev, sc->mlx_irq, INTR_TYPE_BIO | INTR_ENTROPY, mlx_intr, sc, &sc->mlx_intr); 369 if (error) { 370 device_printf(sc->mlx_dev, "can't set up interrupt\n"); 371 mlx_free(sc); 372 return(ENXIO); 373 } 374 375 /* 376 * Create DMA tag for mapping buffers into controller-addressable space. 377 */ 378 error = bus_dma_tag_create(sc->mlx_parent_dmat, /* parent */ 379 1, 0, /* alignment, boundary */ 380 BUS_SPACE_MAXADDR, /* lowaddr */ 381 BUS_SPACE_MAXADDR, /* highaddr */ 382 NULL, NULL, /* filter, filterarg */ 383 MAXBSIZE, MLX_NSEG, /* maxsize, nsegments */ 384 BUS_SPACE_MAXSIZE_32BIT, /* maxsegsize */ 385 0, /* flags */ 386 &sc->mlx_buffer_dmat); 387 if (error != 0) { 388 device_printf(sc->mlx_dev, "can't allocate buffer DMA tag\n"); 389 mlx_free(sc); 390 return(ENOMEM); 391 } 392 393 /* 394 * Create some initial scatter/gather mappings so we can run the probe commands. 395 */ 396 error = mlx_sglist_map(sc); 397 if (error != 0) { 398 device_printf(sc->mlx_dev, "can't make initial s/g list mapping\n"); 399 mlx_free(sc); 400 return(error); 401 } 402 403 /* 404 * We don't (yet) know where the event log is up to. 405 */ 406 sc->mlx_currevent = -1; 407 408 /* 409 * Obtain controller feature information 410 */ 411 if ((sc->mlx_enq2 = mlx_enquire(sc, MLX_CMD_ENQUIRY2, sizeof(struct mlx_enquiry2), NULL)) == NULL) { 412 device_printf(sc->mlx_dev, "ENQUIRY2 failed\n"); 413 mlx_free(sc); 414 return(ENXIO); 415 } 416 417 /* 418 * Do quirk/feature related things. 419 */ 420 fwminor = (sc->mlx_enq2->me_firmware_id >> 8) & 0xff; 421 switch(sc->mlx_iftype) { 422 case MLX_IFTYPE_2: 423 /* These controllers don't report the firmware version in the ENQUIRY2 response */ 424 if ((meo = mlx_enquire(sc, MLX_CMD_ENQUIRY_OLD, sizeof(struct mlx_enquiry_old), NULL)) == NULL) { 425 device_printf(sc->mlx_dev, "ENQUIRY_OLD failed\n"); 426 mlx_free(sc); 427 return(ENXIO); 428 } 429 sc->mlx_enq2->me_firmware_id = ('0' << 24) | (0 << 16) | (meo->me_fwminor << 8) | meo->me_fwmajor; 430 free(meo, M_DEVBUF); 431 432 /* XXX require 2.42 or better (PCI) or 2.14 or better (EISA) */ 433 if (meo->me_fwminor < 42) { 434 device_printf(sc->mlx_dev, " *** WARNING *** This firmware revision is not recommended\n"); 435 device_printf(sc->mlx_dev, " *** WARNING *** Use revision 2.42 or later\n"); 436 } 437 break; 438 case MLX_IFTYPE_3: 439 /* XXX certify 3.52? */ 440 if (fwminor < 51) { 441 device_printf(sc->mlx_dev, " *** WARNING *** This firmware revision is not recommended\n"); 442 device_printf(sc->mlx_dev, " *** WARNING *** Use revision 3.51 or later\n"); 443 } 444 break; 445 case MLX_IFTYPE_4: 446 /* XXX certify firmware versions? */ 447 if (fwminor < 6) { 448 device_printf(sc->mlx_dev, " *** WARNING *** This firmware revision is not recommended\n"); 449 device_printf(sc->mlx_dev, " *** WARNING *** Use revision 4.06 or later\n"); 450 } 451 break; 452 case MLX_IFTYPE_5: 453 if (fwminor < 7) { 454 device_printf(sc->mlx_dev, " *** WARNING *** This firmware revision is not recommended\n"); 455 device_printf(sc->mlx_dev, " *** WARNING *** Use revision 5.07 or later\n"); 456 } 457 break; 458 default: 459 mlx_free(sc); 460 return(ENXIO); /* should never happen */ 461 } 462 463 /* 464 * Create the final scatter/gather mappings now that we have characterised the controller. 465 */ 466 error = mlx_sglist_map(sc); 467 if (error != 0) { 468 device_printf(sc->mlx_dev, "can't make final s/g list mapping\n"); 469 mlx_free(sc); 470 return(error); 471 } 472 473 /* 474 * No user-requested background operation is in progress. 475 */ 476 sc->mlx_background = 0; 477 sc->mlx_rebuildstat.rs_code = MLX_REBUILDSTAT_IDLE; 478 479 /* 480 * Create the control device. 481 */ 482 sc->mlx_dev_t = make_dev(&mlx_cdevsw, device_get_unit(sc->mlx_dev), UID_ROOT, GID_OPERATOR, 483 S_IRUSR | S_IWUSR, "mlx%d", device_get_unit(sc->mlx_dev)); 484 485 /* 486 * Start the timeout routine. 487 */ 488 sc->mlx_timeout = timeout(mlx_periodic, sc, hz); 489 490 /* print a little information about the controller */ 491 mlx_describe_controller(sc); 492 493 return(0); 494 } 495 496 /******************************************************************************** 497 * Locate disk resources and attach children to them. 498 */ 499 void 500 mlx_startup(struct mlx_softc *sc) 501 { 502 struct mlx_enq_sys_drive *mes; 503 struct mlx_sysdrive *dr; 504 int i, error; 505 506 debug_called(1); 507 508 /* 509 * Scan all the system drives and attach children for those that 510 * don't currently have them. 511 */ 512 mes = mlx_enquire(sc, MLX_CMD_ENQSYSDRIVE, sizeof(*mes) * MLX_MAXDRIVES, NULL); 513 if (mes == NULL) { 514 device_printf(sc->mlx_dev, "error fetching drive status\n"); 515 return; 516 } 517 518 /* iterate over drives returned */ 519 for (i = 0, dr = &sc->mlx_sysdrive[0]; 520 (i < MLX_MAXDRIVES) && (mes[i].sd_size != 0xffffffff); 521 i++, dr++) { 522 /* are we already attached to this drive? */ 523 if (dr->ms_disk == 0) { 524 /* pick up drive information */ 525 dr->ms_size = mes[i].sd_size; 526 dr->ms_raidlevel = mes[i].sd_raidlevel & 0xf; 527 dr->ms_state = mes[i].sd_state; 528 529 /* generate geometry information */ 530 if (sc->mlx_geom == MLX_GEOM_128_32) { 531 dr->ms_heads = 128; 532 dr->ms_sectors = 32; 533 dr->ms_cylinders = dr->ms_size / (128 * 32); 534 } else { /* MLX_GEOM_255/63 */ 535 dr->ms_heads = 255; 536 dr->ms_sectors = 63; 537 dr->ms_cylinders = dr->ms_size / (255 * 63); 538 } 539 dr->ms_disk = device_add_child(sc->mlx_dev, /*"mlxd"*/NULL, -1); 540 if (dr->ms_disk == 0) 541 device_printf(sc->mlx_dev, "device_add_child failed\n"); 542 device_set_ivars(dr->ms_disk, dr); 543 } 544 } 545 free(mes, M_DEVBUF); 546 if ((error = bus_generic_attach(sc->mlx_dev)) != 0) 547 device_printf(sc->mlx_dev, "bus_generic_attach returned %d", error); 548 549 /* mark controller back up */ 550 sc->mlx_state &= ~MLX_STATE_SHUTDOWN; 551 552 /* enable interrupts */ 553 sc->mlx_intaction(sc, MLX_INTACTION_ENABLE); 554 } 555 556 /******************************************************************************** 557 * Disconnect from the controller completely, in preparation for unload. 558 */ 559 int 560 mlx_detach(device_t dev) 561 { 562 struct mlx_softc *sc = device_get_softc(dev); 563 struct mlxd_softc *mlxd; 564 int i, s, error; 565 566 debug_called(1); 567 568 error = EBUSY; 569 s = splbio(); 570 if (sc->mlx_state & MLX_STATE_OPEN) 571 goto out; 572 573 for (i = 0; i < MLX_MAXDRIVES; i++) { 574 if (sc->mlx_sysdrive[i].ms_disk != 0) { 575 mlxd = device_get_softc(sc->mlx_sysdrive[i].ms_disk); 576 if (mlxd->mlxd_flags & MLXD_OPEN) { /* drive is mounted, abort detach */ 577 device_printf(sc->mlx_sysdrive[i].ms_disk, "still open, can't detach\n"); 578 goto out; 579 } 580 } 581 } 582 if ((error = mlx_shutdown(dev))) 583 goto out; 584 585 mlx_free(sc); 586 587 error = 0; 588 out: 589 splx(s); 590 return(error); 591 } 592 593 /******************************************************************************** 594 * Bring the controller down to a dormant state and detach all child devices. 595 * 596 * This function is called before detach, system shutdown, or before performing 597 * an operation which may add or delete system disks. (Call mlx_startup to 598 * resume normal operation.) 599 * 600 * Note that we can assume that the bioq on the controller is empty, as we won't 601 * allow shutdown if any device is open. 602 */ 603 int 604 mlx_shutdown(device_t dev) 605 { 606 struct mlx_softc *sc = device_get_softc(dev); 607 int i, s, error; 608 609 debug_called(1); 610 611 s = splbio(); 612 error = 0; 613 614 sc->mlx_state |= MLX_STATE_SHUTDOWN; 615 sc->mlx_intaction(sc, MLX_INTACTION_DISABLE); 616 617 /* flush controller */ 618 device_printf(sc->mlx_dev, "flushing cache..."); 619 if (mlx_flush(sc)) { 620 printf("failed\n"); 621 } else { 622 printf("done\n"); 623 } 624 625 /* delete all our child devices */ 626 for (i = 0; i < MLX_MAXDRIVES; i++) { 627 if (sc->mlx_sysdrive[i].ms_disk != 0) { 628 if ((error = device_delete_child(sc->mlx_dev, sc->mlx_sysdrive[i].ms_disk)) != 0) 629 goto out; 630 sc->mlx_sysdrive[i].ms_disk = 0; 631 } 632 } 633 634 out: 635 splx(s); 636 return(error); 637 } 638 639 /******************************************************************************** 640 * Bring the controller to a quiescent state, ready for system suspend. 641 */ 642 int 643 mlx_suspend(device_t dev) 644 { 645 struct mlx_softc *sc = device_get_softc(dev); 646 int s; 647 648 debug_called(1); 649 650 s = splbio(); 651 sc->mlx_state |= MLX_STATE_SUSPEND; 652 653 /* flush controller */ 654 device_printf(sc->mlx_dev, "flushing cache..."); 655 printf("%s\n", mlx_flush(sc) ? "failed" : "done"); 656 657 sc->mlx_intaction(sc, MLX_INTACTION_DISABLE); 658 splx(s); 659 660 return(0); 661 } 662 663 /******************************************************************************** 664 * Bring the controller back to a state ready for operation. 665 */ 666 int 667 mlx_resume(device_t dev) 668 { 669 struct mlx_softc *sc = device_get_softc(dev); 670 671 debug_called(1); 672 673 sc->mlx_state &= ~MLX_STATE_SUSPEND; 674 sc->mlx_intaction(sc, MLX_INTACTION_ENABLE); 675 676 return(0); 677 } 678 679 /******************************************************************************* 680 * Take an interrupt, or be poked by other code to look for interrupt-worthy 681 * status. 682 */ 683 void 684 mlx_intr(void *arg) 685 { 686 struct mlx_softc *sc = (struct mlx_softc *)arg; 687 688 debug_called(1); 689 690 /* collect finished commands, queue anything waiting */ 691 mlx_done(sc); 692 }; 693 694 /******************************************************************************* 695 * Receive a buf structure from a child device and queue it on a particular 696 * disk resource, then poke the disk resource to start as much work as it can. 697 */ 698 int 699 mlx_submit_buf(struct mlx_softc *sc, mlx_bio *bp) 700 { 701 int s; 702 703 debug_called(1); 704 705 s = splbio(); 706 MLX_BIO_QINSERT(sc->mlx_bioq, bp); 707 sc->mlx_waitbufs++; 708 splx(s); 709 mlx_startio(sc); 710 return(0); 711 } 712 713 /******************************************************************************** 714 * Accept an open operation on the control device. 715 */ 716 int 717 mlx_open(dev_t dev, int flags, int fmt, struct thread *td) 718 { 719 int unit = minor(dev); 720 struct mlx_softc *sc = devclass_get_softc(mlx_devclass, unit); 721 722 sc->mlx_state |= MLX_STATE_OPEN; 723 return(0); 724 } 725 726 /******************************************************************************** 727 * Accept the last close on the control device. 728 */ 729 int 730 mlx_close(dev_t dev, int flags, int fmt, struct thread *td) 731 { 732 int unit = minor(dev); 733 struct mlx_softc *sc = devclass_get_softc(mlx_devclass, unit); 734 735 sc->mlx_state &= ~MLX_STATE_OPEN; 736 return (0); 737 } 738 739 /******************************************************************************** 740 * Handle controller-specific control operations. 741 */ 742 int 743 mlx_ioctl(dev_t dev, u_long cmd, caddr_t addr, int32_t flag, struct thread *td) 744 { 745 int unit = minor(dev); 746 struct mlx_softc *sc = devclass_get_softc(mlx_devclass, unit); 747 struct mlx_rebuild_request *rb = (struct mlx_rebuild_request *)addr; 748 struct mlx_rebuild_status *rs = (struct mlx_rebuild_status *)addr; 749 int *arg = (int *)addr; 750 struct mlx_pause *mp; 751 struct mlx_sysdrive *dr; 752 struct mlxd_softc *mlxd; 753 int i, error; 754 755 switch(cmd) { 756 /* 757 * Enumerate connected system drives; returns the first system drive's 758 * unit number if *arg is -1, or the next unit after *arg if it's 759 * a valid unit on this controller. 760 */ 761 case MLX_NEXT_CHILD: 762 /* search system drives */ 763 for (i = 0; i < MLX_MAXDRIVES; i++) { 764 /* is this one attached? */ 765 if (sc->mlx_sysdrive[i].ms_disk != 0) { 766 /* looking for the next one we come across? */ 767 if (*arg == -1) { 768 *arg = device_get_unit(sc->mlx_sysdrive[0].ms_disk); 769 return(0); 770 } 771 /* we want the one after this one */ 772 if (*arg == device_get_unit(sc->mlx_sysdrive[i].ms_disk)) 773 *arg = -1; 774 } 775 } 776 return(ENOENT); 777 778 /* 779 * Scan the controller to see whether new drives have appeared. 780 */ 781 case MLX_RESCAN_DRIVES: 782 mlx_startup(sc); 783 return(0); 784 785 /* 786 * Disconnect from the specified drive; it may be about to go 787 * away. 788 */ 789 case MLX_DETACH_DRIVE: /* detach one drive */ 790 791 if (((dr = mlx_findunit(sc, *arg)) == NULL) || 792 ((mlxd = device_get_softc(dr->ms_disk)) == NULL)) 793 return(ENOENT); 794 795 device_printf(dr->ms_disk, "detaching..."); 796 error = 0; 797 if (mlxd->mlxd_flags & MLXD_OPEN) { 798 error = EBUSY; 799 goto detach_out; 800 } 801 802 /* flush controller */ 803 if (mlx_flush(sc)) { 804 error = EBUSY; 805 goto detach_out; 806 } 807 808 /* nuke drive */ 809 if ((error = device_delete_child(sc->mlx_dev, dr->ms_disk)) != 0) 810 goto detach_out; 811 dr->ms_disk = 0; 812 813 detach_out: 814 if (error) { 815 printf("failed\n"); 816 } else { 817 printf("done\n"); 818 } 819 return(error); 820 821 /* 822 * Pause one or more SCSI channels for a period of time, to assist 823 * in the process of hot-swapping devices. 824 * 825 * Note that at least the 3.51 firmware on the DAC960PL doesn't seem 826 * to do this right. 827 */ 828 case MLX_PAUSE_CHANNEL: /* schedule a channel pause */ 829 /* Does this command work on this firmware? */ 830 if (!(sc->mlx_feature & MLX_FEAT_PAUSEWORKS)) 831 return(EOPNOTSUPP); 832 833 mp = (struct mlx_pause *)addr; 834 if ((mp->mp_which == MLX_PAUSE_CANCEL) && (sc->mlx_pause.mp_when != 0)) { 835 /* cancel a pending pause operation */ 836 sc->mlx_pause.mp_which = 0; 837 } else { 838 /* fix for legal channels */ 839 mp->mp_which &= ((1 << sc->mlx_enq2->me_actual_channels) -1); 840 /* check time values */ 841 if ((mp->mp_when < 0) || (mp->mp_when > 3600)) 842 return(EINVAL); 843 if ((mp->mp_howlong < 1) || (mp->mp_howlong > (0xf * 30))) 844 return(EINVAL); 845 846 /* check for a pause currently running */ 847 if ((sc->mlx_pause.mp_which != 0) && (sc->mlx_pause.mp_when == 0)) 848 return(EBUSY); 849 850 /* looks ok, go with it */ 851 sc->mlx_pause.mp_which = mp->mp_which; 852 sc->mlx_pause.mp_when = time_second + mp->mp_when; 853 sc->mlx_pause.mp_howlong = sc->mlx_pause.mp_when + mp->mp_howlong; 854 } 855 return(0); 856 857 /* 858 * Accept a command passthrough-style. 859 */ 860 case MLX_COMMAND: 861 return(mlx_user_command(sc, (struct mlx_usercommand *)addr)); 862 863 /* 864 * Start a rebuild on a given SCSI disk 865 */ 866 case MLX_REBUILDASYNC: 867 if (sc->mlx_background != 0) { 868 rb->rr_status = 0x0106; 869 return(EBUSY); 870 } 871 rb->rr_status = mlx_rebuild(sc, rb->rr_channel, rb->rr_target); 872 switch (rb->rr_status) { 873 case 0: 874 error = 0; 875 break; 876 case 0x10000: 877 error = ENOMEM; /* couldn't set up the command */ 878 break; 879 case 0x0002: 880 error = EBUSY; 881 break; 882 case 0x0104: 883 error = EIO; 884 break; 885 case 0x0105: 886 error = ERANGE; 887 break; 888 case 0x0106: 889 error = EBUSY; 890 break; 891 default: 892 error = EINVAL; 893 break; 894 } 895 if (error == 0) 896 sc->mlx_background = MLX_BACKGROUND_REBUILD; 897 return(error); 898 899 /* 900 * Get the status of the current rebuild or consistency check. 901 */ 902 case MLX_REBUILDSTAT: 903 *rs = sc->mlx_rebuildstat; 904 return(0); 905 906 /* 907 * Return the per-controller system drive number matching the 908 * disk device number in (arg), if it happens to belong to us. 909 */ 910 case MLX_GET_SYSDRIVE: 911 error = ENOENT; 912 mlxd = (struct mlxd_softc *)devclass_get_softc(mlxd_devclass, *arg); 913 if ((mlxd != NULL) && (mlxd->mlxd_drive >= sc->mlx_sysdrive) && 914 (mlxd->mlxd_drive < (sc->mlx_sysdrive + MLX_MAXDRIVES))) { 915 error = 0; 916 *arg = mlxd->mlxd_drive - sc->mlx_sysdrive; 917 } 918 return(error); 919 920 default: 921 return(ENOTTY); 922 } 923 } 924 925 /******************************************************************************** 926 * Handle operations requested by a System Drive connected to this controller. 927 */ 928 int 929 mlx_submit_ioctl(struct mlx_softc *sc, struct mlx_sysdrive *drive, u_long cmd, 930 caddr_t addr, int32_t flag, struct thread *td) 931 { 932 int *arg = (int *)addr; 933 int error, result; 934 935 switch(cmd) { 936 /* 937 * Return the current status of this drive. 938 */ 939 case MLXD_STATUS: 940 *arg = drive->ms_state; 941 return(0); 942 943 /* 944 * Start a background consistency check on this drive. 945 */ 946 case MLXD_CHECKASYNC: /* start a background consistency check */ 947 if (sc->mlx_background != 0) { 948 *arg = 0x0106; 949 return(EBUSY); 950 } 951 result = mlx_check(sc, drive - &sc->mlx_sysdrive[0]); 952 switch (result) { 953 case 0: 954 error = 0; 955 break; 956 case 0x10000: 957 error = ENOMEM; /* couldn't set up the command */ 958 break; 959 case 0x0002: 960 error = EIO; 961 break; 962 case 0x0105: 963 error = ERANGE; 964 break; 965 case 0x0106: 966 error = EBUSY; 967 break; 968 default: 969 error = EINVAL; 970 break; 971 } 972 if (error == 0) 973 sc->mlx_background = MLX_BACKGROUND_CHECK; 974 *arg = result; 975 return(error); 976 977 } 978 return(ENOIOCTL); 979 } 980 981 982 /******************************************************************************** 983 ******************************************************************************** 984 Status Monitoring 985 ******************************************************************************** 986 ********************************************************************************/ 987 988 /******************************************************************************** 989 * Fire off commands to periodically check the status of connected drives. 990 */ 991 static void 992 mlx_periodic(void *data) 993 { 994 struct mlx_softc *sc = (struct mlx_softc *)data; 995 996 debug_called(1); 997 998 /* 999 * Run a bus pause? 1000 */ 1001 if ((sc->mlx_pause.mp_which != 0) && 1002 (sc->mlx_pause.mp_when > 0) && 1003 (time_second >= sc->mlx_pause.mp_when)){ 1004 1005 mlx_pause_action(sc); /* pause is running */ 1006 sc->mlx_pause.mp_when = 0; 1007 sysbeep(500, hz); 1008 1009 /* 1010 * Bus pause still running? 1011 */ 1012 } else if ((sc->mlx_pause.mp_which != 0) && 1013 (sc->mlx_pause.mp_when == 0)) { 1014 1015 /* time to stop bus pause? */ 1016 if (time_second >= sc->mlx_pause.mp_howlong) { 1017 mlx_pause_action(sc); 1018 sc->mlx_pause.mp_which = 0; /* pause is complete */ 1019 sysbeep(500, hz); 1020 } else { 1021 sysbeep((time_second % 5) * 100 + 500, hz/8); 1022 } 1023 1024 /* 1025 * Run normal periodic activities? 1026 */ 1027 } else if (time_second > (sc->mlx_lastpoll + 10)) { 1028 sc->mlx_lastpoll = time_second; 1029 1030 /* 1031 * Check controller status. 1032 * 1033 * XXX Note that this may not actually launch a command in situations of high load. 1034 */ 1035 mlx_enquire(sc, (sc->mlx_iftype == MLX_IFTYPE_2) ? MLX_CMD_ENQUIRY_OLD : MLX_CMD_ENQUIRY, 1036 imax(sizeof(struct mlx_enquiry), sizeof(struct mlx_enquiry_old)), mlx_periodic_enquiry); 1037 1038 /* 1039 * Check system drive status. 1040 * 1041 * XXX This might be better left to event-driven detection, eg. I/O to an offline 1042 * drive will detect it's offline, rebuilds etc. should detect the drive is back 1043 * online. 1044 */ 1045 mlx_enquire(sc, MLX_CMD_ENQSYSDRIVE, sizeof(struct mlx_enq_sys_drive) * MLX_MAXDRIVES, 1046 mlx_periodic_enquiry); 1047 1048 } 1049 1050 /* get drive rebuild/check status */ 1051 /* XXX should check sc->mlx_background if this is only valid while in progress */ 1052 mlx_enquire(sc, MLX_CMD_REBUILDSTAT, sizeof(struct mlx_rebuild_stat), mlx_periodic_rebuild); 1053 1054 /* deal with possibly-missed interrupts and timed-out commands */ 1055 mlx_done(sc); 1056 1057 /* reschedule another poll next second or so */ 1058 sc->mlx_timeout = timeout(mlx_periodic, sc, hz); 1059 } 1060 1061 /******************************************************************************** 1062 * Handle the result of an ENQUIRY command instigated by periodic status polling. 1063 */ 1064 static void 1065 mlx_periodic_enquiry(struct mlx_command *mc) 1066 { 1067 struct mlx_softc *sc = mc->mc_sc; 1068 1069 debug_called(1); 1070 1071 /* Command completed OK? */ 1072 if (mc->mc_status != 0) { 1073 device_printf(sc->mlx_dev, "periodic enquiry failed - %s\n", mlx_diagnose_command(mc)); 1074 goto out; 1075 } 1076 1077 /* respond to command */ 1078 switch(mc->mc_mailbox[0]) { 1079 /* 1080 * This is currently a bit fruitless, as we don't know how to extract the eventlog 1081 * pointer yet. 1082 */ 1083 case MLX_CMD_ENQUIRY_OLD: 1084 { 1085 struct mlx_enquiry *me = (struct mlx_enquiry *)mc->mc_data; 1086 struct mlx_enquiry_old *meo = (struct mlx_enquiry_old *)mc->mc_data; 1087 int i; 1088 1089 /* convert data in-place to new format */ 1090 for (i = (sizeof(me->me_dead) / sizeof(me->me_dead[0])) - 1; i >= 0; i--) { 1091 me->me_dead[i].dd_chan = meo->me_dead[i].dd_chan; 1092 me->me_dead[i].dd_targ = meo->me_dead[i].dd_targ; 1093 } 1094 me->me_misc_flags = 0; 1095 me->me_rebuild_count = meo->me_rebuild_count; 1096 me->me_dead_count = meo->me_dead_count; 1097 me->me_critical_sd_count = meo->me_critical_sd_count; 1098 me->me_event_log_seq_num = 0; 1099 me->me_offline_sd_count = meo->me_offline_sd_count; 1100 me->me_max_commands = meo->me_max_commands; 1101 me->me_rebuild_flag = meo->me_rebuild_flag; 1102 me->me_fwmajor = meo->me_fwmajor; 1103 me->me_fwminor = meo->me_fwminor; 1104 me->me_status_flags = meo->me_status_flags; 1105 me->me_flash_age = meo->me_flash_age; 1106 for (i = (sizeof(me->me_drvsize) / sizeof(me->me_drvsize[0])) - 1; i >= 0; i--) { 1107 if (i > ((sizeof(meo->me_drvsize) / sizeof(meo->me_drvsize[0])) - 1)) { 1108 me->me_drvsize[i] = 0; /* drive beyond supported range */ 1109 } else { 1110 me->me_drvsize[i] = meo->me_drvsize[i]; 1111 } 1112 } 1113 me->me_num_sys_drvs = meo->me_num_sys_drvs; 1114 } 1115 /* FALLTHROUGH */ 1116 1117 /* 1118 * Generic controller status update. We could do more with this than just 1119 * checking the event log. 1120 */ 1121 case MLX_CMD_ENQUIRY: 1122 { 1123 struct mlx_enquiry *me = (struct mlx_enquiry *)mc->mc_data; 1124 1125 if (sc->mlx_currevent == -1) { 1126 /* initialise our view of the event log */ 1127 sc->mlx_currevent = sc->mlx_lastevent = me->me_event_log_seq_num; 1128 } else if ((me->me_event_log_seq_num != sc->mlx_lastevent) && !(sc->mlx_flags & MLX_EVENTLOG_BUSY)) { 1129 /* record where current events are up to */ 1130 sc->mlx_currevent = me->me_event_log_seq_num; 1131 debug(1, "event log pointer was %d, now %d\n", sc->mlx_lastevent, sc->mlx_currevent); 1132 1133 /* mark the event log as busy */ 1134 atomic_set_int(&sc->mlx_flags, MLX_EVENTLOG_BUSY); 1135 1136 /* drain new eventlog entries */ 1137 mlx_periodic_eventlog_poll(sc); 1138 } 1139 break; 1140 } 1141 case MLX_CMD_ENQSYSDRIVE: 1142 { 1143 struct mlx_enq_sys_drive *mes = (struct mlx_enq_sys_drive *)mc->mc_data; 1144 struct mlx_sysdrive *dr; 1145 int i; 1146 1147 for (i = 0, dr = &sc->mlx_sysdrive[0]; 1148 (i < MLX_MAXDRIVES) && (mes[i].sd_size != 0xffffffff); 1149 i++) { 1150 1151 /* has state been changed by controller? */ 1152 if (dr->ms_state != mes[i].sd_state) { 1153 switch(mes[i].sd_state) { 1154 case MLX_SYSD_OFFLINE: 1155 device_printf(dr->ms_disk, "drive offline\n"); 1156 break; 1157 case MLX_SYSD_ONLINE: 1158 device_printf(dr->ms_disk, "drive online\n"); 1159 break; 1160 case MLX_SYSD_CRITICAL: 1161 device_printf(dr->ms_disk, "drive critical\n"); 1162 break; 1163 } 1164 /* save new state */ 1165 dr->ms_state = mes[i].sd_state; 1166 } 1167 } 1168 break; 1169 } 1170 default: 1171 device_printf(sc->mlx_dev, "%s: unknown command 0x%x", __FUNCTION__, mc->mc_mailbox[0]); 1172 break; 1173 } 1174 1175 out: 1176 free(mc->mc_data, M_DEVBUF); 1177 mlx_releasecmd(mc); 1178 } 1179 1180 /******************************************************************************** 1181 * Instigate a poll for one event log message on (sc). 1182 * We only poll for one message at a time, to keep our command usage down. 1183 */ 1184 static void 1185 mlx_periodic_eventlog_poll(struct mlx_softc *sc) 1186 { 1187 struct mlx_command *mc; 1188 void *result = NULL; 1189 int error; 1190 1191 debug_called(1); 1192 1193 /* get ourselves a command buffer */ 1194 error = 1; 1195 if ((mc = mlx_alloccmd(sc)) == NULL) 1196 goto out; 1197 /* allocate the response structure */ 1198 if ((result = malloc(/*sizeof(struct mlx_eventlog_entry)*/1024, M_DEVBUF, M_NOWAIT)) == NULL) 1199 goto out; 1200 /* get a command slot */ 1201 if (mlx_getslot(mc)) 1202 goto out; 1203 1204 /* map the command so the controller can see it */ 1205 mc->mc_data = result; 1206 mc->mc_length = /*sizeof(struct mlx_eventlog_entry)*/1024; 1207 mlx_mapcmd(mc); 1208 1209 /* build the command to get one entry */ 1210 mlx_make_type3(mc, MLX_CMD_LOGOP, MLX_LOGOP_GET, 1, sc->mlx_lastevent, 0, 0, mc->mc_dataphys, 0); 1211 mc->mc_complete = mlx_periodic_eventlog_respond; 1212 mc->mc_private = mc; 1213 1214 /* start the command */ 1215 if ((error = mlx_start(mc)) != 0) 1216 goto out; 1217 1218 error = 0; /* success */ 1219 out: 1220 if (error != 0) { 1221 if (mc != NULL) 1222 mlx_releasecmd(mc); 1223 if (result != NULL) 1224 free(result, M_DEVBUF); 1225 } 1226 } 1227 1228 /******************************************************************************** 1229 * Handle the result of polling for a log message, generate diagnostic output. 1230 * If this wasn't the last message waiting for us, we'll go collect another. 1231 */ 1232 static char *mlx_sense_messages[] = { 1233 "because write recovery failed", 1234 "because of SCSI bus reset failure", 1235 "because of double check condition", 1236 "because it was removed", 1237 "because of gross error on SCSI chip", 1238 "because of bad tag returned from drive", 1239 "because of timeout on SCSI command", 1240 "because of reset SCSI command issued from system", 1241 "because busy or parity error count exceeded limit", 1242 "because of 'kill drive' command from system", 1243 "because of selection timeout", 1244 "due to SCSI phase sequence error", 1245 "due to unknown status" 1246 }; 1247 1248 static void 1249 mlx_periodic_eventlog_respond(struct mlx_command *mc) 1250 { 1251 struct mlx_softc *sc = mc->mc_sc; 1252 struct mlx_eventlog_entry *el = (struct mlx_eventlog_entry *)mc->mc_data; 1253 char *reason; 1254 1255 debug_called(1); 1256 1257 sc->mlx_lastevent++; /* next message... */ 1258 if (mc->mc_status == 0) { 1259 1260 /* handle event log message */ 1261 switch(el->el_type) { 1262 /* 1263 * This is the only sort of message we understand at the moment. 1264 * The tests here are probably incomplete. 1265 */ 1266 case MLX_LOGMSG_SENSE: /* sense data */ 1267 /* Mylex vendor-specific message indicating a drive was killed? */ 1268 if ((el->el_sensekey == 9) && 1269 (el->el_asc == 0x80)) { 1270 if (el->el_asq < (sizeof(mlx_sense_messages) / sizeof(mlx_sense_messages[0]))) { 1271 reason = mlx_sense_messages[el->el_asq]; 1272 } else { 1273 reason = "for unknown reason"; 1274 } 1275 device_printf(sc->mlx_dev, "physical drive %d:%d killed %s\n", 1276 el->el_channel, el->el_target, reason); 1277 } 1278 /* SCSI drive was reset? */ 1279 if ((el->el_sensekey == 6) && (el->el_asc == 0x29)) { 1280 device_printf(sc->mlx_dev, "physical drive %d:%d reset\n", 1281 el->el_channel, el->el_target); 1282 } 1283 /* SCSI drive error? */ 1284 if (!((el->el_sensekey == 0) || 1285 ((el->el_sensekey == 2) && 1286 (el->el_asc == 0x04) && 1287 ((el->el_asq == 0x01) || 1288 (el->el_asq == 0x02))))) { 1289 device_printf(sc->mlx_dev, "physical drive %d:%d error log: sense = %d asc = %x asq = %x\n", 1290 el->el_channel, el->el_target, el->el_sensekey, el->el_asc, el->el_asq); 1291 device_printf(sc->mlx_dev, " info %4D csi %4D\n", el->el_information, ":", el->el_csi, ":"); 1292 } 1293 break; 1294 1295 default: 1296 device_printf(sc->mlx_dev, "unknown log message type 0x%x\n", el->el_type); 1297 break; 1298 } 1299 } else { 1300 device_printf(sc->mlx_dev, "error reading message log - %s\n", mlx_diagnose_command(mc)); 1301 /* give up on all the outstanding messages, as we may have come unsynched */ 1302 sc->mlx_lastevent = sc->mlx_currevent; 1303 } 1304 1305 /* dispose of command and data */ 1306 free(mc->mc_data, M_DEVBUF); 1307 mlx_releasecmd(mc); 1308 1309 /* is there another message to obtain? */ 1310 if (sc->mlx_lastevent != sc->mlx_currevent) { 1311 mlx_periodic_eventlog_poll(sc); 1312 } else { 1313 /* clear log-busy status */ 1314 atomic_clear_int(&sc->mlx_flags, MLX_EVENTLOG_BUSY); 1315 } 1316 } 1317 1318 /******************************************************************************** 1319 * Handle check/rebuild operations in progress. 1320 */ 1321 static void 1322 mlx_periodic_rebuild(struct mlx_command *mc) 1323 { 1324 struct mlx_softc *sc = mc->mc_sc; 1325 struct mlx_rebuild_status *mr = (struct mlx_rebuild_status *)mc->mc_data; 1326 1327 switch(mc->mc_status) { 1328 case 0: /* operation running, update stats */ 1329 sc->mlx_rebuildstat = *mr; 1330 1331 /* spontaneous rebuild/check? */ 1332 if (sc->mlx_background == 0) { 1333 sc->mlx_background = MLX_BACKGROUND_SPONTANEOUS; 1334 device_printf(sc->mlx_dev, "background check/rebuild operation started\n"); 1335 } 1336 break; 1337 1338 case 0x0105: /* nothing running, finalise stats and report */ 1339 switch(sc->mlx_background) { 1340 case MLX_BACKGROUND_CHECK: 1341 device_printf(sc->mlx_dev, "consistency check completed\n"); /* XXX print drive? */ 1342 break; 1343 case MLX_BACKGROUND_REBUILD: 1344 device_printf(sc->mlx_dev, "drive rebuild completed\n"); /* XXX print channel/target? */ 1345 break; 1346 case MLX_BACKGROUND_SPONTANEOUS: 1347 default: 1348 /* if we have previously been non-idle, report the transition */ 1349 if (sc->mlx_rebuildstat.rs_code != MLX_REBUILDSTAT_IDLE) { 1350 device_printf(sc->mlx_dev, "background check/rebuild operation completed\n"); 1351 } 1352 } 1353 sc->mlx_background = 0; 1354 sc->mlx_rebuildstat.rs_code = MLX_REBUILDSTAT_IDLE; 1355 break; 1356 } 1357 free(mc->mc_data, M_DEVBUF); 1358 mlx_releasecmd(mc); 1359 } 1360 1361 /******************************************************************************** 1362 ******************************************************************************** 1363 Channel Pause 1364 ******************************************************************************** 1365 ********************************************************************************/ 1366 1367 /******************************************************************************** 1368 * It's time to perform a channel pause action for (sc), either start or stop 1369 * the pause. 1370 */ 1371 static void 1372 mlx_pause_action(struct mlx_softc *sc) 1373 { 1374 struct mlx_command *mc; 1375 int failsafe, i, command; 1376 1377 /* What are we doing here? */ 1378 if (sc->mlx_pause.mp_when == 0) { 1379 command = MLX_CMD_STARTCHANNEL; 1380 failsafe = 0; 1381 1382 } else { 1383 command = MLX_CMD_STOPCHANNEL; 1384 1385 /* 1386 * Channels will always start again after the failsafe period, 1387 * which is specified in multiples of 30 seconds. 1388 * This constrains us to a maximum pause of 450 seconds. 1389 */ 1390 failsafe = ((sc->mlx_pause.mp_howlong - time_second) + 5) / 30; 1391 if (failsafe > 0xf) { 1392 failsafe = 0xf; 1393 sc->mlx_pause.mp_howlong = time_second + (0xf * 30) - 5; 1394 } 1395 } 1396 1397 /* build commands for every channel requested */ 1398 for (i = 0; i < sc->mlx_enq2->me_actual_channels; i++) { 1399 if ((1 << i) & sc->mlx_pause.mp_which) { 1400 1401 /* get ourselves a command buffer */ 1402 if ((mc = mlx_alloccmd(sc)) == NULL) 1403 goto fail; 1404 /* get a command slot */ 1405 mc->mc_flags |= MLX_CMD_PRIORITY; 1406 if (mlx_getslot(mc)) 1407 goto fail; 1408 1409 /* build the command */ 1410 mlx_make_type2(mc, command, (failsafe << 4) | i, 0, 0, 0, 0, 0, 0, 0); 1411 mc->mc_complete = mlx_pause_done; 1412 mc->mc_private = sc; /* XXX not needed */ 1413 if (mlx_start(mc)) 1414 goto fail; 1415 /* command submitted OK */ 1416 return; 1417 1418 fail: 1419 device_printf(sc->mlx_dev, "%s failed for channel %d\n", 1420 command == MLX_CMD_STOPCHANNEL ? "pause" : "resume", i); 1421 if (mc != NULL) 1422 mlx_releasecmd(mc); 1423 } 1424 } 1425 } 1426 1427 static void 1428 mlx_pause_done(struct mlx_command *mc) 1429 { 1430 struct mlx_softc *sc = mc->mc_sc; 1431 int command = mc->mc_mailbox[0]; 1432 int channel = mc->mc_mailbox[2] & 0xf; 1433 1434 if (mc->mc_status != 0) { 1435 device_printf(sc->mlx_dev, "%s command failed - %s\n", 1436 command == MLX_CMD_STOPCHANNEL ? "pause" : "resume", mlx_diagnose_command(mc)); 1437 } else if (command == MLX_CMD_STOPCHANNEL) { 1438 device_printf(sc->mlx_dev, "channel %d pausing for %ld seconds\n", 1439 channel, (long)(sc->mlx_pause.mp_howlong - time_second)); 1440 } else { 1441 device_printf(sc->mlx_dev, "channel %d resuming\n", channel); 1442 } 1443 mlx_releasecmd(mc); 1444 } 1445 1446 /******************************************************************************** 1447 ******************************************************************************** 1448 Command Submission 1449 ******************************************************************************** 1450 ********************************************************************************/ 1451 1452 /******************************************************************************** 1453 * Perform an Enquiry command using a type-3 command buffer and a return a single 1454 * linear result buffer. If the completion function is specified, it will 1455 * be called with the completed command (and the result response will not be 1456 * valid until that point). Otherwise, the command will either be busy-waited 1457 * for (interrupts not enabled), or slept for. 1458 */ 1459 static void * 1460 mlx_enquire(struct mlx_softc *sc, int command, size_t bufsize, void (* complete)(struct mlx_command *mc)) 1461 { 1462 struct mlx_command *mc; 1463 void *result; 1464 int error; 1465 1466 debug_called(1); 1467 1468 /* get ourselves a command buffer */ 1469 error = 1; 1470 result = NULL; 1471 if ((mc = mlx_alloccmd(sc)) == NULL) 1472 goto out; 1473 /* allocate the response structure */ 1474 if ((result = malloc(bufsize, M_DEVBUF, M_NOWAIT)) == NULL) 1475 goto out; 1476 /* get a command slot */ 1477 mc->mc_flags |= MLX_CMD_PRIORITY | MLX_CMD_DATAOUT; 1478 if (mlx_getslot(mc)) 1479 goto out; 1480 1481 /* map the command so the controller can see it */ 1482 mc->mc_data = result; 1483 mc->mc_length = bufsize; 1484 mlx_mapcmd(mc); 1485 1486 /* build an enquiry command */ 1487 mlx_make_type2(mc, command, 0, 0, 0, 0, 0, 0, mc->mc_dataphys, 0); 1488 1489 /* do we want a completion callback? */ 1490 if (complete != NULL) { 1491 mc->mc_complete = complete; 1492 mc->mc_private = mc; 1493 if ((error = mlx_start(mc)) != 0) 1494 goto out; 1495 } else { 1496 /* run the command in either polled or wait mode */ 1497 if ((sc->mlx_state & MLX_STATE_INTEN) ? mlx_wait_command(mc) : mlx_poll_command(mc)) 1498 goto out; 1499 1500 /* command completed OK? */ 1501 if (mc->mc_status != 0) { 1502 device_printf(sc->mlx_dev, "ENQUIRY failed - %s\n", mlx_diagnose_command(mc)); 1503 goto out; 1504 } 1505 } 1506 error = 0; /* success */ 1507 out: 1508 /* we got a command, but nobody else will free it */ 1509 if ((complete == NULL) && (mc != NULL)) 1510 mlx_releasecmd(mc); 1511 /* we got an error, and we allocated a result */ 1512 if ((error != 0) && (result != NULL)) { 1513 free(result, M_DEVBUF); 1514 result = NULL; 1515 } 1516 return(result); 1517 } 1518 1519 1520 /******************************************************************************** 1521 * Perform a Flush command on the nominated controller. 1522 * 1523 * May be called with interrupts enabled or disabled; will not return until 1524 * the flush operation completes or fails. 1525 */ 1526 static int 1527 mlx_flush(struct mlx_softc *sc) 1528 { 1529 struct mlx_command *mc; 1530 int error; 1531 1532 debug_called(1); 1533 1534 /* get ourselves a command buffer */ 1535 error = 1; 1536 if ((mc = mlx_alloccmd(sc)) == NULL) 1537 goto out; 1538 /* get a command slot */ 1539 if (mlx_getslot(mc)) 1540 goto out; 1541 1542 /* build a flush command */ 1543 mlx_make_type2(mc, MLX_CMD_FLUSH, 0, 0, 0, 0, 0, 0, 0, 0); 1544 1545 /* can't assume that interrupts are going to work here, so play it safe */ 1546 if (mlx_poll_command(mc)) 1547 goto out; 1548 1549 /* command completed OK? */ 1550 if (mc->mc_status != 0) { 1551 device_printf(sc->mlx_dev, "FLUSH failed - %s\n", mlx_diagnose_command(mc)); 1552 goto out; 1553 } 1554 1555 error = 0; /* success */ 1556 out: 1557 if (mc != NULL) 1558 mlx_releasecmd(mc); 1559 return(error); 1560 } 1561 1562 /******************************************************************************** 1563 * Start a background consistency check on (drive). 1564 * 1565 * May be called with interrupts enabled or disabled; will return as soon as the 1566 * operation has started or been refused. 1567 */ 1568 static int 1569 mlx_check(struct mlx_softc *sc, int drive) 1570 { 1571 struct mlx_command *mc; 1572 int error; 1573 1574 debug_called(1); 1575 1576 /* get ourselves a command buffer */ 1577 error = 0x10000; 1578 if ((mc = mlx_alloccmd(sc)) == NULL) 1579 goto out; 1580 /* get a command slot */ 1581 if (mlx_getslot(mc)) 1582 goto out; 1583 1584 /* build a checkasync command, set the "fix it" flag */ 1585 mlx_make_type2(mc, MLX_CMD_CHECKASYNC, 0, 0, 0, 0, 0, drive | 0x80, 0, 0); 1586 1587 /* start the command and wait for it to be returned */ 1588 if (mlx_wait_command(mc)) 1589 goto out; 1590 1591 /* command completed OK? */ 1592 if (mc->mc_status != 0) { 1593 device_printf(sc->mlx_dev, "CHECK ASYNC failed - %s\n", mlx_diagnose_command(mc)); 1594 } else { 1595 device_printf(sc->mlx_sysdrive[drive].ms_disk, "consistency check started"); 1596 } 1597 error = mc->mc_status; 1598 1599 out: 1600 if (mc != NULL) 1601 mlx_releasecmd(mc); 1602 return(error); 1603 } 1604 1605 /******************************************************************************** 1606 * Start a background rebuild of the physical drive at (channel),(target). 1607 * 1608 * May be called with interrupts enabled or disabled; will return as soon as the 1609 * operation has started or been refused. 1610 */ 1611 static int 1612 mlx_rebuild(struct mlx_softc *sc, int channel, int target) 1613 { 1614 struct mlx_command *mc; 1615 int error; 1616 1617 debug_called(1); 1618 1619 /* get ourselves a command buffer */ 1620 error = 0x10000; 1621 if ((mc = mlx_alloccmd(sc)) == NULL) 1622 goto out; 1623 /* get a command slot */ 1624 if (mlx_getslot(mc)) 1625 goto out; 1626 1627 /* build a checkasync command, set the "fix it" flag */ 1628 mlx_make_type2(mc, MLX_CMD_REBUILDASYNC, channel, target, 0, 0, 0, 0, 0, 0); 1629 1630 /* start the command and wait for it to be returned */ 1631 if (mlx_wait_command(mc)) 1632 goto out; 1633 1634 /* command completed OK? */ 1635 if (mc->mc_status != 0) { 1636 device_printf(sc->mlx_dev, "REBUILD ASYNC failed - %s\n", mlx_diagnose_command(mc)); 1637 } else { 1638 device_printf(sc->mlx_dev, "drive rebuild started for %d:%d\n", channel, target); 1639 } 1640 error = mc->mc_status; 1641 1642 out: 1643 if (mc != NULL) 1644 mlx_releasecmd(mc); 1645 return(error); 1646 } 1647 1648 /******************************************************************************** 1649 * Run the command (mc) and return when it completes. 1650 * 1651 * Interrupts need to be enabled; returns nonzero on error. 1652 */ 1653 static int 1654 mlx_wait_command(struct mlx_command *mc) 1655 { 1656 struct mlx_softc *sc = mc->mc_sc; 1657 int error, count; 1658 1659 debug_called(1); 1660 1661 mc->mc_complete = NULL; 1662 mc->mc_private = mc; /* wake us when you're done */ 1663 if ((error = mlx_start(mc)) != 0) 1664 return(error); 1665 1666 count = 0; 1667 /* XXX better timeout? */ 1668 while ((mc->mc_status == MLX_STATUS_BUSY) && (count < 30)) { 1669 tsleep(mc->mc_private, PRIBIO | PCATCH, "mlxwcmd", hz); 1670 } 1671 1672 if (mc->mc_status != 0) { 1673 device_printf(sc->mlx_dev, "command failed - %s\n", mlx_diagnose_command(mc)); 1674 return(EIO); 1675 } 1676 return(0); 1677 } 1678 1679 1680 /******************************************************************************** 1681 * Start the command (mc) and busy-wait for it to complete. 1682 * 1683 * Should only be used when interrupts can't be relied upon. Returns 0 on 1684 * success, nonzero on error. 1685 * Successfully completed commands are dequeued. 1686 */ 1687 static int 1688 mlx_poll_command(struct mlx_command *mc) 1689 { 1690 struct mlx_softc *sc = mc->mc_sc; 1691 int error, count, s; 1692 1693 debug_called(1); 1694 1695 mc->mc_complete = NULL; 1696 mc->mc_private = NULL; /* we will poll for it */ 1697 if ((error = mlx_start(mc)) != 0) 1698 return(error); 1699 1700 count = 0; 1701 do { 1702 /* poll for completion */ 1703 mlx_done(mc->mc_sc); 1704 1705 } while ((mc->mc_status == MLX_STATUS_BUSY) && (count++ < 15000000)); 1706 if (mc->mc_status != MLX_STATUS_BUSY) { 1707 s = splbio(); 1708 TAILQ_REMOVE(&sc->mlx_work, mc, mc_link); 1709 splx(s); 1710 return(0); 1711 } 1712 device_printf(sc->mlx_dev, "command failed - %s\n", mlx_diagnose_command(mc)); 1713 return(EIO); 1714 } 1715 1716 /******************************************************************************** 1717 * Pull as much work off the softc's work queue as possible and give it to the 1718 * controller. Leave a couple of slots free for emergencies. 1719 * 1720 * Must be called at splbio or in an equivalent fashion that prevents 1721 * reentry or activity on the bioq. 1722 */ 1723 static void 1724 mlx_startio(struct mlx_softc *sc) 1725 { 1726 struct mlx_command *mc; 1727 struct mlxd_softc *mlxd; 1728 mlx_bio *bp; 1729 int blkcount; 1730 int driveno; 1731 int cmd; 1732 int s; 1733 1734 /* avoid reentrancy */ 1735 if (mlx_lock_tas(sc, MLX_LOCK_STARTING)) 1736 return; 1737 1738 /* spin until something prevents us from doing any work */ 1739 s = splbio(); 1740 for (;;) { 1741 1742 /* see if there's work to be done */ 1743 if ((bp = MLX_BIO_QFIRST(sc->mlx_bioq)) == NULL) 1744 break; 1745 /* get a command */ 1746 if ((mc = mlx_alloccmd(sc)) == NULL) 1747 break; 1748 /* get a slot for the command */ 1749 if (mlx_getslot(mc) != 0) { 1750 mlx_releasecmd(mc); 1751 break; 1752 } 1753 /* get the buf containing our work */ 1754 MLX_BIO_QREMOVE(sc->mlx_bioq, bp); 1755 sc->mlx_waitbufs--; 1756 splx(s); 1757 1758 /* connect the buf to the command */ 1759 mc->mc_complete = mlx_completeio; 1760 mc->mc_private = bp; 1761 mc->mc_data = MLX_BIO_DATA(bp); 1762 mc->mc_length = MLX_BIO_LENGTH(bp); 1763 if (MLX_BIO_IS_READ(bp)) { 1764 mc->mc_flags |= MLX_CMD_DATAIN; 1765 cmd = MLX_CMD_READSG; 1766 } else { 1767 mc->mc_flags |= MLX_CMD_DATAOUT; 1768 cmd = MLX_CMD_WRITESG; 1769 } 1770 1771 /* map the command so the controller can work with it */ 1772 mlx_mapcmd(mc); 1773 1774 /* build a suitable I/O command (assumes 512-byte rounded transfers) */ 1775 mlxd = (struct mlxd_softc *)MLX_BIO_SOFTC(bp); 1776 driveno = mlxd->mlxd_drive - sc->mlx_sysdrive; 1777 blkcount = (MLX_BIO_LENGTH(bp) + MLX_BLKSIZE - 1) / MLX_BLKSIZE; 1778 1779 if ((MLX_BIO_LBA(bp) + blkcount) > sc->mlx_sysdrive[driveno].ms_size) 1780 device_printf(sc->mlx_dev, "I/O beyond end of unit (%u,%d > %u)\n", 1781 MLX_BIO_LBA(bp), blkcount, sc->mlx_sysdrive[driveno].ms_size); 1782 1783 /* 1784 * Build the I/O command. Note that the SG list type bits are set to zero, 1785 * denoting the format of SG list that we are using. 1786 */ 1787 if (sc->mlx_iftype == MLX_IFTYPE_2) { 1788 mlx_make_type1(mc, (cmd == MLX_CMD_WRITESG) ? MLX_CMD_WRITESG_OLD : MLX_CMD_READSG_OLD, 1789 blkcount & 0xff, /* xfer length low byte */ 1790 MLX_BIO_LBA(bp), /* physical block number */ 1791 driveno, /* target drive number */ 1792 mc->mc_sgphys, /* location of SG list */ 1793 mc->mc_nsgent & 0x3f); /* size of SG list (top 3 bits clear) */ 1794 } else { 1795 mlx_make_type5(mc, cmd, 1796 blkcount & 0xff, /* xfer length low byte */ 1797 (driveno << 3) | ((blkcount >> 8) & 0x07), /* target and length high 3 bits */ 1798 MLX_BIO_LBA(bp), /* physical block number */ 1799 mc->mc_sgphys, /* location of SG list */ 1800 mc->mc_nsgent & 0x3f); /* size of SG list (top 3 bits clear) */ 1801 } 1802 1803 /* try to give command to controller */ 1804 if (mlx_start(mc) != 0) { 1805 /* fail the command */ 1806 mc->mc_status = MLX_STATUS_WEDGED; 1807 mlx_completeio(mc); 1808 } 1809 s = splbio(); 1810 } 1811 splx(s); 1812 mlx_lock_clr(sc, MLX_LOCK_STARTING); 1813 } 1814 1815 /******************************************************************************** 1816 * Handle completion of an I/O command. 1817 */ 1818 static void 1819 mlx_completeio(struct mlx_command *mc) 1820 { 1821 struct mlx_softc *sc = mc->mc_sc; 1822 mlx_bio *bp = (mlx_bio *)mc->mc_private; 1823 struct mlxd_softc *mlxd = (struct mlxd_softc *)MLX_BIO_SOFTC(bp); 1824 1825 if (mc->mc_status != MLX_STATUS_OK) { /* could be more verbose here? */ 1826 MLX_BIO_SET_ERROR(bp, EIO); 1827 1828 switch(mc->mc_status) { 1829 case MLX_STATUS_RDWROFFLINE: /* system drive has gone offline */ 1830 device_printf(mlxd->mlxd_dev, "drive offline\n"); 1831 /* should signal this with a return code */ 1832 mlxd->mlxd_drive->ms_state = MLX_SYSD_OFFLINE; 1833 break; 1834 1835 default: /* other I/O error */ 1836 device_printf(sc->mlx_dev, "I/O error - %s\n", mlx_diagnose_command(mc)); 1837 #if 0 1838 device_printf(sc->mlx_dev, " b_bcount %ld blkcount %ld b_pblkno %d\n", 1839 MLX_BIO_LENGTH(bp), MLX_BIO_LENGTH(bp) / MLX_BLKSIZE, MLX_BIO_LBA(bp)); 1840 device_printf(sc->mlx_dev, " %13D\n", mc->mc_mailbox, " "); 1841 #endif 1842 break; 1843 } 1844 } 1845 mlx_releasecmd(mc); 1846 mlxd_intr(bp); 1847 } 1848 1849 /******************************************************************************** 1850 * Take a command from user-space and try to run it. 1851 * 1852 * XXX Note that this can't perform very much in the way of error checking, and 1853 * as such, applications _must_ be considered trustworthy. 1854 * XXX Commands using S/G for data are not supported. 1855 */ 1856 static int 1857 mlx_user_command(struct mlx_softc *sc, struct mlx_usercommand *mu) 1858 { 1859 struct mlx_command *mc; 1860 struct mlx_dcdb *dcdb; 1861 void *kbuf; 1862 int error; 1863 1864 debug_called(0); 1865 1866 kbuf = NULL; 1867 mc = NULL; 1868 dcdb = NULL; 1869 error = ENOMEM; 1870 1871 /* get ourselves a command and copy in from user space */ 1872 if ((mc = mlx_alloccmd(sc)) == NULL) 1873 goto out; 1874 bcopy(mu->mu_command, mc->mc_mailbox, sizeof(mc->mc_mailbox)); 1875 debug(0, "got command buffer"); 1876 1877 /* if we need a buffer for data transfer, allocate one and copy in its initial contents */ 1878 if (mu->mu_datasize > 0) { 1879 if (mu->mu_datasize > MAXPHYS) 1880 return (EINVAL); 1881 if (((kbuf = malloc(mu->mu_datasize, M_DEVBUF, M_WAITOK)) == NULL) || 1882 (error = copyin(mu->mu_buf, kbuf, mu->mu_datasize))) 1883 goto out; 1884 debug(0, "got kernel buffer"); 1885 } 1886 1887 /* get a command slot */ 1888 if (mlx_getslot(mc)) 1889 goto out; 1890 debug(0, "got a slot"); 1891 1892 /* map the command so the controller can see it */ 1893 mc->mc_data = kbuf; 1894 mc->mc_length = mu->mu_datasize; 1895 mlx_mapcmd(mc); 1896 debug(0, "mapped"); 1897 1898 /* 1899 * If this is a passthrough SCSI command, the DCDB is packed at the 1900 * beginning of the data area. Fix up the DCDB to point to the correct physical 1901 * address and override any bufptr supplied by the caller since we know 1902 * what it's meant to be. 1903 */ 1904 if (mc->mc_mailbox[0] == MLX_CMD_DIRECT_CDB) { 1905 dcdb = (struct mlx_dcdb *)kbuf; 1906 dcdb->dcdb_physaddr = mc->mc_dataphys + sizeof(*dcdb); 1907 mu->mu_bufptr = 8; 1908 } 1909 1910 /* 1911 * If there's a data buffer, fix up the command's buffer pointer. 1912 */ 1913 if (mu->mu_datasize > 0) { 1914 1915 /* range check the pointer to physical buffer address */ 1916 if ((mu->mu_bufptr < 0) || (mu->mu_bufptr > (sizeof(mu->mu_command) - sizeof(u_int32_t)))) { 1917 error = EINVAL; 1918 goto out; 1919 } 1920 mc->mc_mailbox[mu->mu_bufptr ] = mc->mc_dataphys & 0xff; 1921 mc->mc_mailbox[mu->mu_bufptr + 1] = (mc->mc_dataphys >> 8) & 0xff; 1922 mc->mc_mailbox[mu->mu_bufptr + 2] = (mc->mc_dataphys >> 16) & 0xff; 1923 mc->mc_mailbox[mu->mu_bufptr + 3] = (mc->mc_dataphys >> 24) & 0xff; 1924 } 1925 debug(0, "command fixup"); 1926 1927 /* submit the command and wait */ 1928 if ((error = mlx_wait_command(mc)) != 0) 1929 goto out; 1930 1931 /* copy out status and data */ 1932 mu->mu_status = mc->mc_status; 1933 if ((mu->mu_datasize > 0) && ((error = copyout(kbuf, mu->mu_buf, mu->mu_datasize)))) 1934 goto out; 1935 error = 0; 1936 1937 out: 1938 mlx_releasecmd(mc); 1939 if (kbuf != NULL) 1940 free(kbuf, M_DEVBUF); 1941 return(error); 1942 } 1943 1944 /******************************************************************************** 1945 ******************************************************************************** 1946 Command I/O to Controller 1947 ******************************************************************************** 1948 ********************************************************************************/ 1949 1950 /******************************************************************************** 1951 * Find a free command slot for (mc). 1952 * 1953 * Don't hand out a slot to a normal-priority command unless there are at least 1954 * 4 slots free for priority commands. 1955 */ 1956 static int 1957 mlx_getslot(struct mlx_command *mc) 1958 { 1959 struct mlx_softc *sc = mc->mc_sc; 1960 int s, slot, limit; 1961 1962 debug_called(1); 1963 1964 /* 1965 * Enforce slot-usage limit, if we have the required information. 1966 */ 1967 if (sc->mlx_enq2 != NULL) { 1968 limit = sc->mlx_enq2->me_max_commands; 1969 } else { 1970 limit = 2; 1971 } 1972 if (sc->mlx_busycmds >= ((mc->mc_flags & MLX_CMD_PRIORITY) ? limit : limit - 4)) 1973 return(EBUSY); 1974 1975 /* 1976 * Allocate an outstanding command slot 1977 * 1978 * XXX linear search is slow 1979 */ 1980 s = splbio(); 1981 for (slot = 0; slot < limit; slot++) { 1982 debug(2, "try slot %d", slot); 1983 if (sc->mlx_busycmd[slot] == NULL) 1984 break; 1985 } 1986 if (slot < limit) { 1987 sc->mlx_busycmd[slot] = mc; 1988 sc->mlx_busycmds++; 1989 } 1990 splx(s); 1991 1992 /* out of slots? */ 1993 if (slot >= limit) 1994 return(EBUSY); 1995 1996 debug(2, "got slot %d", slot); 1997 mc->mc_slot = slot; 1998 return(0); 1999 } 2000 2001 /******************************************************************************** 2002 * Map/unmap (mc)'s data in the controller's addressable space. 2003 */ 2004 static void 2005 mlx_setup_dmamap(void *arg, bus_dma_segment_t *segs, int nsegments, int error) 2006 { 2007 struct mlx_command *mc = (struct mlx_command *)arg; 2008 struct mlx_softc *sc = mc->mc_sc; 2009 struct mlx_sgentry *sg; 2010 int i; 2011 2012 debug_called(1); 2013 2014 /* XXX should be unnecessary */ 2015 if (sc->mlx_enq2 && (nsegments > sc->mlx_enq2->me_max_sg)) 2016 panic("MLX: too many s/g segments (%d, max %d)", nsegments, sc->mlx_enq2->me_max_sg); 2017 2018 /* get base address of s/g table */ 2019 sg = sc->mlx_sgtable + (mc->mc_slot * MLX_NSEG); 2020 2021 /* save s/g table information in command */ 2022 mc->mc_nsgent = nsegments; 2023 mc->mc_sgphys = sc->mlx_sgbusaddr + (mc->mc_slot * MLX_NSEG * sizeof(struct mlx_sgentry)); 2024 mc->mc_dataphys = segs[0].ds_addr; 2025 2026 /* populate s/g table */ 2027 for (i = 0; i < nsegments; i++, sg++) { 2028 sg->sg_addr = segs[i].ds_addr; 2029 sg->sg_count = segs[i].ds_len; 2030 } 2031 } 2032 2033 static void 2034 mlx_mapcmd(struct mlx_command *mc) 2035 { 2036 struct mlx_softc *sc = mc->mc_sc; 2037 2038 debug_called(1); 2039 2040 /* if the command involves data at all */ 2041 if (mc->mc_data != NULL) { 2042 2043 /* map the data buffer into bus space and build the s/g list */ 2044 bus_dmamap_load(sc->mlx_buffer_dmat, mc->mc_dmamap, mc->mc_data, mc->mc_length, 2045 mlx_setup_dmamap, mc, 0); 2046 if (mc->mc_flags & MLX_CMD_DATAIN) 2047 bus_dmamap_sync(sc->mlx_buffer_dmat, mc->mc_dmamap, BUS_DMASYNC_PREREAD); 2048 if (mc->mc_flags & MLX_CMD_DATAOUT) 2049 bus_dmamap_sync(sc->mlx_buffer_dmat, mc->mc_dmamap, BUS_DMASYNC_PREWRITE); 2050 } 2051 } 2052 2053 static void 2054 mlx_unmapcmd(struct mlx_command *mc) 2055 { 2056 struct mlx_softc *sc = mc->mc_sc; 2057 2058 debug_called(1); 2059 2060 /* if the command involved data at all */ 2061 if (mc->mc_data != NULL) { 2062 2063 if (mc->mc_flags & MLX_CMD_DATAIN) 2064 bus_dmamap_sync(sc->mlx_buffer_dmat, mc->mc_dmamap, BUS_DMASYNC_POSTREAD); 2065 if (mc->mc_flags & MLX_CMD_DATAOUT) 2066 bus_dmamap_sync(sc->mlx_buffer_dmat, mc->mc_dmamap, BUS_DMASYNC_POSTWRITE); 2067 2068 bus_dmamap_unload(sc->mlx_buffer_dmat, mc->mc_dmamap); 2069 } 2070 } 2071 2072 /******************************************************************************** 2073 * Try to deliver (mc) to the controller. 2074 * 2075 * Can be called at any interrupt level, with or without interrupts enabled. 2076 */ 2077 static int 2078 mlx_start(struct mlx_command *mc) 2079 { 2080 struct mlx_softc *sc = mc->mc_sc; 2081 int i, s, done; 2082 2083 debug_called(1); 2084 2085 /* save the slot number as ident so we can handle this command when complete */ 2086 mc->mc_mailbox[0x1] = mc->mc_slot; 2087 2088 /* mark the command as currently being processed */ 2089 mc->mc_status = MLX_STATUS_BUSY; 2090 2091 /* set a default 60-second timeout XXX tunable? XXX not currently used */ 2092 mc->mc_timeout = time_second + 60; 2093 2094 /* spin waiting for the mailbox */ 2095 for (i = 100000, done = 0; (i > 0) && !done; i--) { 2096 s = splbio(); 2097 if (sc->mlx_tryqueue(sc, mc)) { 2098 done = 1; 2099 /* move command to work queue */ 2100 TAILQ_INSERT_TAIL(&sc->mlx_work, mc, mc_link); 2101 } 2102 splx(s); /* drop spl to allow completion interrupts */ 2103 } 2104 2105 /* command is enqueued */ 2106 if (done) 2107 return(0); 2108 2109 /* 2110 * We couldn't get the controller to take the command. Revoke the slot 2111 * that the command was given and return it with a bad status. 2112 */ 2113 sc->mlx_busycmd[mc->mc_slot] = NULL; 2114 device_printf(sc->mlx_dev, "controller wedged (not taking commands)\n"); 2115 mc->mc_status = MLX_STATUS_WEDGED; 2116 mlx_complete(sc); 2117 return(EIO); 2118 } 2119 2120 /******************************************************************************** 2121 * Poll the controller (sc) for completed commands. 2122 * Update command status and free slots for reuse. If any slots were freed, 2123 * new commands may be posted. 2124 * 2125 * Returns nonzero if one or more commands were completed. 2126 */ 2127 static int 2128 mlx_done(struct mlx_softc *sc) 2129 { 2130 struct mlx_command *mc; 2131 int s, result; 2132 u_int8_t slot; 2133 u_int16_t status; 2134 2135 debug_called(2); 2136 2137 result = 0; 2138 2139 /* loop collecting completed commands */ 2140 s = splbio(); 2141 for (;;) { 2142 /* poll for a completed command's identifier and status */ 2143 if (sc->mlx_findcomplete(sc, &slot, &status)) { 2144 result = 1; 2145 mc = sc->mlx_busycmd[slot]; /* find command */ 2146 if (mc != NULL) { /* paranoia */ 2147 if (mc->mc_status == MLX_STATUS_BUSY) { 2148 mc->mc_status = status; /* save status */ 2149 2150 /* free slot for reuse */ 2151 sc->mlx_busycmd[slot] = NULL; 2152 sc->mlx_busycmds--; 2153 } else { 2154 device_printf(sc->mlx_dev, "duplicate done event for slot %d\n", slot); 2155 } 2156 } else { 2157 device_printf(sc->mlx_dev, "done event for nonbusy slot %d\n", slot); 2158 } 2159 } else { 2160 break; 2161 } 2162 } 2163 splx(s); 2164 2165 /* if we've completed any commands, try posting some more */ 2166 if (result) 2167 mlx_startio(sc); 2168 2169 /* handle completion and timeouts */ 2170 mlx_complete(sc); 2171 2172 return(result); 2173 } 2174 2175 /******************************************************************************** 2176 * Perform post-completion processing for commands on (sc). 2177 */ 2178 static void 2179 mlx_complete(struct mlx_softc *sc) 2180 { 2181 struct mlx_command *mc, *nc; 2182 int s, count; 2183 2184 debug_called(2); 2185 2186 /* avoid reentrancy XXX might want to signal and request a restart */ 2187 if (mlx_lock_tas(sc, MLX_LOCK_COMPLETING)) 2188 return; 2189 2190 s = splbio(); 2191 count = 0; 2192 2193 /* scan the list of busy/done commands */ 2194 mc = TAILQ_FIRST(&sc->mlx_work); 2195 while (mc != NULL) { 2196 nc = TAILQ_NEXT(mc, mc_link); 2197 2198 /* Command has been completed in some fashion */ 2199 if (mc->mc_status != MLX_STATUS_BUSY) { 2200 2201 /* unmap the command's data buffer */ 2202 mlx_unmapcmd(mc); 2203 /* 2204 * Does the command have a completion handler? 2205 */ 2206 if (mc->mc_complete != NULL) { 2207 /* remove from list and give to handler */ 2208 TAILQ_REMOVE(&sc->mlx_work, mc, mc_link); 2209 mc->mc_complete(mc); 2210 2211 /* 2212 * Is there a sleeper waiting on this command? 2213 */ 2214 } else if (mc->mc_private != NULL) { /* sleeping caller wants to know about it */ 2215 2216 /* remove from list and wake up sleeper */ 2217 TAILQ_REMOVE(&sc->mlx_work, mc, mc_link); 2218 wakeup_one(mc->mc_private); 2219 2220 /* 2221 * Leave the command for a caller that's polling for it. 2222 */ 2223 } else { 2224 } 2225 } 2226 mc = nc; 2227 } 2228 splx(s); 2229 2230 mlx_lock_clr(sc, MLX_LOCK_COMPLETING); 2231 } 2232 2233 /******************************************************************************** 2234 ******************************************************************************** 2235 Command Buffer Management 2236 ******************************************************************************** 2237 ********************************************************************************/ 2238 2239 /******************************************************************************** 2240 * Get a new command buffer. 2241 * 2242 * This may return NULL in low-memory cases. 2243 * 2244 * Note that using malloc() is expensive (the command buffer is << 1 page) but 2245 * necessary if we are to be a loadable module before the zone allocator is fixed. 2246 * 2247 * If possible, we recycle a command buffer that's been used before. 2248 * 2249 * XXX Note that command buffers are not cleaned out - it is the caller's 2250 * responsibility to ensure that all required fields are filled in before 2251 * using a buffer. 2252 */ 2253 static struct mlx_command * 2254 mlx_alloccmd(struct mlx_softc *sc) 2255 { 2256 struct mlx_command *mc; 2257 int error; 2258 int s; 2259 2260 debug_called(1); 2261 2262 s = splbio(); 2263 if ((mc = TAILQ_FIRST(&sc->mlx_freecmds)) != NULL) 2264 TAILQ_REMOVE(&sc->mlx_freecmds, mc, mc_link); 2265 splx(s); 2266 2267 /* allocate a new command buffer? */ 2268 if (mc == NULL) { 2269 mc = (struct mlx_command *)malloc(sizeof(*mc), M_DEVBUF, M_NOWAIT | M_ZERO); 2270 if (mc != NULL) { 2271 mc->mc_sc = sc; 2272 error = bus_dmamap_create(sc->mlx_buffer_dmat, 0, &mc->mc_dmamap); 2273 if (error) { 2274 free(mc, M_DEVBUF); 2275 return(NULL); 2276 } 2277 } 2278 } 2279 return(mc); 2280 } 2281 2282 /******************************************************************************** 2283 * Release a command buffer for recycling. 2284 * 2285 * XXX It might be a good idea to limit the number of commands we save for reuse 2286 * if it's shown that this list bloats out massively. 2287 */ 2288 static void 2289 mlx_releasecmd(struct mlx_command *mc) 2290 { 2291 int s; 2292 2293 debug_called(1); 2294 2295 s = splbio(); 2296 TAILQ_INSERT_HEAD(&mc->mc_sc->mlx_freecmds, mc, mc_link); 2297 splx(s); 2298 } 2299 2300 /******************************************************************************** 2301 * Permanently discard a command buffer. 2302 */ 2303 static void 2304 mlx_freecmd(struct mlx_command *mc) 2305 { 2306 struct mlx_softc *sc = mc->mc_sc; 2307 2308 debug_called(1); 2309 bus_dmamap_destroy(sc->mlx_buffer_dmat, mc->mc_dmamap); 2310 free(mc, M_DEVBUF); 2311 } 2312 2313 2314 /******************************************************************************** 2315 ******************************************************************************** 2316 Type 3 interface accessor methods 2317 ******************************************************************************** 2318 ********************************************************************************/ 2319 2320 /******************************************************************************** 2321 * Try to give (mc) to the controller. Returns 1 if successful, 0 on failure 2322 * (the controller is not ready to take a command). 2323 * 2324 * Must be called at splbio or in a fashion that prevents reentry. 2325 */ 2326 static int 2327 mlx_v3_tryqueue(struct mlx_softc *sc, struct mlx_command *mc) 2328 { 2329 int i; 2330 2331 debug_called(2); 2332 2333 /* ready for our command? */ 2334 if (!(MLX_V3_GET_IDBR(sc) & MLX_V3_IDB_FULL)) { 2335 /* copy mailbox data to window */ 2336 for (i = 0; i < 13; i++) 2337 MLX_V3_PUT_MAILBOX(sc, i, mc->mc_mailbox[i]); 2338 2339 /* post command */ 2340 MLX_V3_PUT_IDBR(sc, MLX_V3_IDB_FULL); 2341 return(1); 2342 } 2343 return(0); 2344 } 2345 2346 /******************************************************************************** 2347 * See if a command has been completed, if so acknowledge its completion 2348 * and recover the slot number and status code. 2349 * 2350 * Must be called at splbio or in a fashion that prevents reentry. 2351 */ 2352 static int 2353 mlx_v3_findcomplete(struct mlx_softc *sc, u_int8_t *slot, u_int16_t *status) 2354 { 2355 2356 debug_called(2); 2357 2358 /* status available? */ 2359 if (MLX_V3_GET_ODBR(sc) & MLX_V3_ODB_SAVAIL) { 2360 *slot = MLX_V3_GET_STATUS_IDENT(sc); /* get command identifier */ 2361 *status = MLX_V3_GET_STATUS(sc); /* get status */ 2362 2363 /* acknowledge completion */ 2364 MLX_V3_PUT_ODBR(sc, MLX_V3_ODB_SAVAIL); 2365 MLX_V3_PUT_IDBR(sc, MLX_V3_IDB_SACK); 2366 return(1); 2367 } 2368 return(0); 2369 } 2370 2371 /******************************************************************************** 2372 * Enable/disable interrupts as requested. (No acknowledge required) 2373 * 2374 * Must be called at splbio or in a fashion that prevents reentry. 2375 */ 2376 static void 2377 mlx_v3_intaction(struct mlx_softc *sc, int action) 2378 { 2379 debug_called(1); 2380 2381 switch(action) { 2382 case MLX_INTACTION_DISABLE: 2383 MLX_V3_PUT_IER(sc, 0); 2384 sc->mlx_state &= ~MLX_STATE_INTEN; 2385 break; 2386 case MLX_INTACTION_ENABLE: 2387 MLX_V3_PUT_IER(sc, 1); 2388 sc->mlx_state |= MLX_STATE_INTEN; 2389 break; 2390 } 2391 } 2392 2393 /******************************************************************************** 2394 * Poll for firmware error codes during controller initialisation. 2395 * Returns 0 if initialisation is complete, 1 if still in progress but no 2396 * error has been fetched, 2 if an error has been retrieved. 2397 */ 2398 static int 2399 mlx_v3_fw_handshake(struct mlx_softc *sc, int *error, int *param1, int *param2) 2400 { 2401 u_int8_t fwerror; 2402 static int initted = 0; 2403 2404 debug_called(2); 2405 2406 /* first time around, clear any hardware completion status */ 2407 if (!initted) { 2408 MLX_V3_PUT_IDBR(sc, MLX_V3_IDB_SACK); 2409 DELAY(1000); 2410 initted = 1; 2411 } 2412 2413 /* init in progress? */ 2414 if (!(MLX_V3_GET_IDBR(sc) & MLX_V3_IDB_INIT_BUSY)) 2415 return(0); 2416 2417 /* test error value */ 2418 fwerror = MLX_V3_GET_FWERROR(sc); 2419 if (!(fwerror & MLX_V3_FWERROR_PEND)) 2420 return(1); 2421 2422 /* mask status pending bit, fetch status */ 2423 *error = fwerror & ~MLX_V3_FWERROR_PEND; 2424 *param1 = MLX_V3_GET_FWERROR_PARAM1(sc); 2425 *param2 = MLX_V3_GET_FWERROR_PARAM2(sc); 2426 2427 /* acknowledge */ 2428 MLX_V3_PUT_FWERROR(sc, 0); 2429 2430 return(2); 2431 } 2432 2433 /******************************************************************************** 2434 ******************************************************************************** 2435 Type 4 interface accessor methods 2436 ******************************************************************************** 2437 ********************************************************************************/ 2438 2439 /******************************************************************************** 2440 * Try to give (mc) to the controller. Returns 1 if successful, 0 on failure 2441 * (the controller is not ready to take a command). 2442 * 2443 * Must be called at splbio or in a fashion that prevents reentry. 2444 */ 2445 static int 2446 mlx_v4_tryqueue(struct mlx_softc *sc, struct mlx_command *mc) 2447 { 2448 int i; 2449 2450 debug_called(2); 2451 2452 /* ready for our command? */ 2453 if (!(MLX_V4_GET_IDBR(sc) & MLX_V4_IDB_FULL)) { 2454 /* copy mailbox data to window */ 2455 for (i = 0; i < 13; i++) 2456 MLX_V4_PUT_MAILBOX(sc, i, mc->mc_mailbox[i]); 2457 2458 /* memory-mapped controller, so issue a write barrier to ensure the mailbox is filled */ 2459 bus_space_barrier(sc->mlx_btag, sc->mlx_bhandle, MLX_V4_MAILBOX, MLX_V4_MAILBOX_LENGTH, 2460 BUS_SPACE_BARRIER_WRITE); 2461 2462 /* post command */ 2463 MLX_V4_PUT_IDBR(sc, MLX_V4_IDB_HWMBOX_CMD); 2464 return(1); 2465 } 2466 return(0); 2467 } 2468 2469 /******************************************************************************** 2470 * See if a command has been completed, if so acknowledge its completion 2471 * and recover the slot number and status code. 2472 * 2473 * Must be called at splbio or in a fashion that prevents reentry. 2474 */ 2475 static int 2476 mlx_v4_findcomplete(struct mlx_softc *sc, u_int8_t *slot, u_int16_t *status) 2477 { 2478 2479 debug_called(2); 2480 2481 /* status available? */ 2482 if (MLX_V4_GET_ODBR(sc) & MLX_V4_ODB_HWSAVAIL) { 2483 *slot = MLX_V4_GET_STATUS_IDENT(sc); /* get command identifier */ 2484 *status = MLX_V4_GET_STATUS(sc); /* get status */ 2485 2486 /* acknowledge completion */ 2487 MLX_V4_PUT_ODBR(sc, MLX_V4_ODB_HWMBOX_ACK); 2488 MLX_V4_PUT_IDBR(sc, MLX_V4_IDB_SACK); 2489 return(1); 2490 } 2491 return(0); 2492 } 2493 2494 /******************************************************************************** 2495 * Enable/disable interrupts as requested. 2496 * 2497 * Must be called at splbio or in a fashion that prevents reentry. 2498 */ 2499 static void 2500 mlx_v4_intaction(struct mlx_softc *sc, int action) 2501 { 2502 debug_called(1); 2503 2504 switch(action) { 2505 case MLX_INTACTION_DISABLE: 2506 MLX_V4_PUT_IER(sc, MLX_V4_IER_MASK | MLX_V4_IER_DISINT); 2507 sc->mlx_state &= ~MLX_STATE_INTEN; 2508 break; 2509 case MLX_INTACTION_ENABLE: 2510 MLX_V4_PUT_IER(sc, MLX_V4_IER_MASK & ~MLX_V4_IER_DISINT); 2511 sc->mlx_state |= MLX_STATE_INTEN; 2512 break; 2513 } 2514 } 2515 2516 /******************************************************************************** 2517 * Poll for firmware error codes during controller initialisation. 2518 * Returns 0 if initialisation is complete, 1 if still in progress but no 2519 * error has been fetched, 2 if an error has been retrieved. 2520 */ 2521 static int 2522 mlx_v4_fw_handshake(struct mlx_softc *sc, int *error, int *param1, int *param2) 2523 { 2524 u_int8_t fwerror; 2525 static int initted = 0; 2526 2527 debug_called(2); 2528 2529 /* first time around, clear any hardware completion status */ 2530 if (!initted) { 2531 MLX_V4_PUT_IDBR(sc, MLX_V4_IDB_SACK); 2532 DELAY(1000); 2533 initted = 1; 2534 } 2535 2536 /* init in progress? */ 2537 if (!(MLX_V4_GET_IDBR(sc) & MLX_V4_IDB_INIT_BUSY)) 2538 return(0); 2539 2540 /* test error value */ 2541 fwerror = MLX_V4_GET_FWERROR(sc); 2542 if (!(fwerror & MLX_V4_FWERROR_PEND)) 2543 return(1); 2544 2545 /* mask status pending bit, fetch status */ 2546 *error = fwerror & ~MLX_V4_FWERROR_PEND; 2547 *param1 = MLX_V4_GET_FWERROR_PARAM1(sc); 2548 *param2 = MLX_V4_GET_FWERROR_PARAM2(sc); 2549 2550 /* acknowledge */ 2551 MLX_V4_PUT_FWERROR(sc, 0); 2552 2553 return(2); 2554 } 2555 2556 /******************************************************************************** 2557 ******************************************************************************** 2558 Type 5 interface accessor methods 2559 ******************************************************************************** 2560 ********************************************************************************/ 2561 2562 /******************************************************************************** 2563 * Try to give (mc) to the controller. Returns 1 if successful, 0 on failure 2564 * (the controller is not ready to take a command). 2565 * 2566 * Must be called at splbio or in a fashion that prevents reentry. 2567 */ 2568 static int 2569 mlx_v5_tryqueue(struct mlx_softc *sc, struct mlx_command *mc) 2570 { 2571 int i; 2572 2573 debug_called(2); 2574 2575 /* ready for our command? */ 2576 if (MLX_V5_GET_IDBR(sc) & MLX_V5_IDB_EMPTY) { 2577 /* copy mailbox data to window */ 2578 for (i = 0; i < 13; i++) 2579 MLX_V5_PUT_MAILBOX(sc, i, mc->mc_mailbox[i]); 2580 2581 /* post command */ 2582 MLX_V5_PUT_IDBR(sc, MLX_V5_IDB_HWMBOX_CMD); 2583 return(1); 2584 } 2585 return(0); 2586 } 2587 2588 /******************************************************************************** 2589 * See if a command has been completed, if so acknowledge its completion 2590 * and recover the slot number and status code. 2591 * 2592 * Must be called at splbio or in a fashion that prevents reentry. 2593 */ 2594 static int 2595 mlx_v5_findcomplete(struct mlx_softc *sc, u_int8_t *slot, u_int16_t *status) 2596 { 2597 2598 debug_called(2); 2599 2600 /* status available? */ 2601 if (MLX_V5_GET_ODBR(sc) & MLX_V5_ODB_HWSAVAIL) { 2602 *slot = MLX_V5_GET_STATUS_IDENT(sc); /* get command identifier */ 2603 *status = MLX_V5_GET_STATUS(sc); /* get status */ 2604 2605 /* acknowledge completion */ 2606 MLX_V5_PUT_ODBR(sc, MLX_V5_ODB_HWMBOX_ACK); 2607 MLX_V5_PUT_IDBR(sc, MLX_V5_IDB_SACK); 2608 return(1); 2609 } 2610 return(0); 2611 } 2612 2613 /******************************************************************************** 2614 * Enable/disable interrupts as requested. 2615 * 2616 * Must be called at splbio or in a fashion that prevents reentry. 2617 */ 2618 static void 2619 mlx_v5_intaction(struct mlx_softc *sc, int action) 2620 { 2621 debug_called(1); 2622 2623 switch(action) { 2624 case MLX_INTACTION_DISABLE: 2625 MLX_V5_PUT_IER(sc, 0xff & MLX_V5_IER_DISINT); 2626 sc->mlx_state &= ~MLX_STATE_INTEN; 2627 break; 2628 case MLX_INTACTION_ENABLE: 2629 MLX_V5_PUT_IER(sc, 0xff & ~MLX_V5_IER_DISINT); 2630 sc->mlx_state |= MLX_STATE_INTEN; 2631 break; 2632 } 2633 } 2634 2635 /******************************************************************************** 2636 * Poll for firmware error codes during controller initialisation. 2637 * Returns 0 if initialisation is complete, 1 if still in progress but no 2638 * error has been fetched, 2 if an error has been retrieved. 2639 */ 2640 static int 2641 mlx_v5_fw_handshake(struct mlx_softc *sc, int *error, int *param1, int *param2) 2642 { 2643 u_int8_t fwerror; 2644 static int initted = 0; 2645 2646 debug_called(2); 2647 2648 /* first time around, clear any hardware completion status */ 2649 if (!initted) { 2650 MLX_V5_PUT_IDBR(sc, MLX_V5_IDB_SACK); 2651 DELAY(1000); 2652 initted = 1; 2653 } 2654 2655 /* init in progress? */ 2656 if (MLX_V5_GET_IDBR(sc) & MLX_V5_IDB_INIT_DONE) 2657 return(0); 2658 2659 /* test for error value */ 2660 fwerror = MLX_V5_GET_FWERROR(sc); 2661 if (!(fwerror & MLX_V5_FWERROR_PEND)) 2662 return(1); 2663 2664 /* mask status pending bit, fetch status */ 2665 *error = fwerror & ~MLX_V5_FWERROR_PEND; 2666 *param1 = MLX_V5_GET_FWERROR_PARAM1(sc); 2667 *param2 = MLX_V5_GET_FWERROR_PARAM2(sc); 2668 2669 /* acknowledge */ 2670 MLX_V5_PUT_FWERROR(sc, 0xff); 2671 2672 return(2); 2673 } 2674 2675 /******************************************************************************** 2676 ******************************************************************************** 2677 Debugging 2678 ******************************************************************************** 2679 ********************************************************************************/ 2680 2681 /******************************************************************************** 2682 * Return a status message describing (mc) 2683 */ 2684 static char *mlx_status_messages[] = { 2685 "normal completion", /* 00 */ 2686 "irrecoverable data error", /* 01 */ 2687 "drive does not exist, or is offline", /* 02 */ 2688 "attempt to write beyond end of drive", /* 03 */ 2689 "bad data encountered", /* 04 */ 2690 "invalid log entry request", /* 05 */ 2691 "attempt to rebuild online drive", /* 06 */ 2692 "new disk failed during rebuild", /* 07 */ 2693 "invalid channel/target", /* 08 */ 2694 "rebuild/check already in progress", /* 09 */ 2695 "one or more disks are dead", /* 10 */ 2696 "invalid or non-redundant drive", /* 11 */ 2697 "channel is busy", /* 12 */ 2698 "channel is not stopped", /* 13 */ 2699 "rebuild successfully terminated", /* 14 */ 2700 "unsupported command", /* 15 */ 2701 "check condition received", /* 16 */ 2702 "device is busy", /* 17 */ 2703 "selection or command timeout", /* 18 */ 2704 "command terminated abnormally", /* 19 */ 2705 "" 2706 }; 2707 2708 static struct 2709 { 2710 int command; 2711 u_int16_t status; 2712 int msg; 2713 } mlx_messages[] = { 2714 {MLX_CMD_READSG, 0x0001, 1}, 2715 {MLX_CMD_READSG, 0x0002, 1}, 2716 {MLX_CMD_READSG, 0x0105, 3}, 2717 {MLX_CMD_READSG, 0x010c, 4}, 2718 {MLX_CMD_WRITESG, 0x0001, 1}, 2719 {MLX_CMD_WRITESG, 0x0002, 1}, 2720 {MLX_CMD_WRITESG, 0x0105, 3}, 2721 {MLX_CMD_READSG_OLD, 0x0001, 1}, 2722 {MLX_CMD_READSG_OLD, 0x0002, 1}, 2723 {MLX_CMD_READSG_OLD, 0x0105, 3}, 2724 {MLX_CMD_WRITESG_OLD, 0x0001, 1}, 2725 {MLX_CMD_WRITESG_OLD, 0x0002, 1}, 2726 {MLX_CMD_WRITESG_OLD, 0x0105, 3}, 2727 {MLX_CMD_LOGOP, 0x0105, 5}, 2728 {MLX_CMD_REBUILDASYNC, 0x0002, 6}, 2729 {MLX_CMD_REBUILDASYNC, 0x0004, 7}, 2730 {MLX_CMD_REBUILDASYNC, 0x0105, 8}, 2731 {MLX_CMD_REBUILDASYNC, 0x0106, 9}, 2732 {MLX_CMD_REBUILDASYNC, 0x0107, 14}, 2733 {MLX_CMD_CHECKASYNC, 0x0002, 10}, 2734 {MLX_CMD_CHECKASYNC, 0x0105, 11}, 2735 {MLX_CMD_CHECKASYNC, 0x0106, 9}, 2736 {MLX_CMD_STOPCHANNEL, 0x0106, 12}, 2737 {MLX_CMD_STOPCHANNEL, 0x0105, 8}, 2738 {MLX_CMD_STARTCHANNEL, 0x0005, 13}, 2739 {MLX_CMD_STARTCHANNEL, 0x0105, 8}, 2740 {MLX_CMD_DIRECT_CDB, 0x0002, 16}, 2741 {MLX_CMD_DIRECT_CDB, 0x0008, 17}, 2742 {MLX_CMD_DIRECT_CDB, 0x000e, 18}, 2743 {MLX_CMD_DIRECT_CDB, 0x000f, 19}, 2744 {MLX_CMD_DIRECT_CDB, 0x0105, 8}, 2745 2746 {0, 0x0104, 14}, 2747 {-1, 0, 0} 2748 }; 2749 2750 static char * 2751 mlx_diagnose_command(struct mlx_command *mc) 2752 { 2753 static char unkmsg[80]; 2754 int i; 2755 2756 /* look up message in table */ 2757 for (i = 0; mlx_messages[i].command != -1; i++) 2758 if (((mc->mc_mailbox[0] == mlx_messages[i].command) || (mlx_messages[i].command == 0)) && 2759 (mc->mc_status == mlx_messages[i].status)) 2760 return(mlx_status_messages[mlx_messages[i].msg]); 2761 2762 sprintf(unkmsg, "unknown response 0x%x for command 0x%x", (int)mc->mc_status, (int)mc->mc_mailbox[0]); 2763 return(unkmsg); 2764 } 2765 2766 /******************************************************************************* 2767 * Print a string describing the controller (sc) 2768 */ 2769 static struct 2770 { 2771 int hwid; 2772 char *name; 2773 } mlx_controller_names[] = { 2774 {0x01, "960P/PD"}, 2775 {0x02, "960PL"}, 2776 {0x10, "960PG"}, 2777 {0x11, "960PJ"}, 2778 {0x12, "960PR"}, 2779 {0x13, "960PT"}, 2780 {0x14, "960PTL0"}, 2781 {0x15, "960PRL"}, 2782 {0x16, "960PTL1"}, 2783 {0x20, "1164PVX"}, 2784 {-1, NULL} 2785 }; 2786 2787 static void 2788 mlx_describe_controller(struct mlx_softc *sc) 2789 { 2790 static char buf[80]; 2791 char *model; 2792 int i; 2793 2794 for (i = 0, model = NULL; mlx_controller_names[i].name != NULL; i++) { 2795 if ((sc->mlx_enq2->me_hardware_id & 0xff) == mlx_controller_names[i].hwid) { 2796 model = mlx_controller_names[i].name; 2797 break; 2798 } 2799 } 2800 if (model == NULL) { 2801 sprintf(buf, " model 0x%x", sc->mlx_enq2->me_hardware_id & 0xff); 2802 model = buf; 2803 } 2804 device_printf(sc->mlx_dev, "DAC%s, %d channel%s, firmware %d.%02d-%c-%02d, %dMB RAM\n", 2805 model, 2806 sc->mlx_enq2->me_actual_channels, 2807 sc->mlx_enq2->me_actual_channels > 1 ? "s" : "", 2808 sc->mlx_enq2->me_firmware_id & 0xff, 2809 (sc->mlx_enq2->me_firmware_id >> 8) & 0xff, 2810 (sc->mlx_enq2->me_firmware_id >> 24) & 0xff, 2811 (sc->mlx_enq2->me_firmware_id >> 16) & 0xff, 2812 sc->mlx_enq2->me_mem_size / (1024 * 1024)); 2813 2814 if (bootverbose) { 2815 device_printf(sc->mlx_dev, " Hardware ID 0x%08x\n", sc->mlx_enq2->me_hardware_id); 2816 device_printf(sc->mlx_dev, " Firmware ID 0x%08x\n", sc->mlx_enq2->me_firmware_id); 2817 device_printf(sc->mlx_dev, " Configured/Actual channels %d/%d\n", sc->mlx_enq2->me_configured_channels, 2818 sc->mlx_enq2->me_actual_channels); 2819 device_printf(sc->mlx_dev, " Max Targets %d\n", sc->mlx_enq2->me_max_targets); 2820 device_printf(sc->mlx_dev, " Max Tags %d\n", sc->mlx_enq2->me_max_tags); 2821 device_printf(sc->mlx_dev, " Max System Drives %d\n", sc->mlx_enq2->me_max_sys_drives); 2822 device_printf(sc->mlx_dev, " Max Arms %d\n", sc->mlx_enq2->me_max_arms); 2823 device_printf(sc->mlx_dev, " Max Spans %d\n", sc->mlx_enq2->me_max_spans); 2824 device_printf(sc->mlx_dev, " DRAM/cache/flash/NVRAM size %d/%d/%d/%d\n", sc->mlx_enq2->me_mem_size, 2825 sc->mlx_enq2->me_cache_size, sc->mlx_enq2->me_flash_size, sc->mlx_enq2->me_nvram_size); 2826 device_printf(sc->mlx_dev, " DRAM type %d\n", sc->mlx_enq2->me_mem_type); 2827 device_printf(sc->mlx_dev, " Clock Speed %dns\n", sc->mlx_enq2->me_clock_speed); 2828 device_printf(sc->mlx_dev, " Hardware Speed %dns\n", sc->mlx_enq2->me_hardware_speed); 2829 device_printf(sc->mlx_dev, " Max Commands %d\n", sc->mlx_enq2->me_max_commands); 2830 device_printf(sc->mlx_dev, " Max SG Entries %d\n", sc->mlx_enq2->me_max_sg); 2831 device_printf(sc->mlx_dev, " Max DP %d\n", sc->mlx_enq2->me_max_dp); 2832 device_printf(sc->mlx_dev, " Max IOD %d\n", sc->mlx_enq2->me_max_iod); 2833 device_printf(sc->mlx_dev, " Max Comb %d\n", sc->mlx_enq2->me_max_comb); 2834 device_printf(sc->mlx_dev, " Latency %ds\n", sc->mlx_enq2->me_latency); 2835 device_printf(sc->mlx_dev, " SCSI Timeout %ds\n", sc->mlx_enq2->me_scsi_timeout); 2836 device_printf(sc->mlx_dev, " Min Free Lines %d\n", sc->mlx_enq2->me_min_freelines); 2837 device_printf(sc->mlx_dev, " Rate Constant %d\n", sc->mlx_enq2->me_rate_const); 2838 device_printf(sc->mlx_dev, " MAXBLK %d\n", sc->mlx_enq2->me_maxblk); 2839 device_printf(sc->mlx_dev, " Blocking Factor %d sectors\n", sc->mlx_enq2->me_blocking_factor); 2840 device_printf(sc->mlx_dev, " Cache Line Size %d blocks\n", sc->mlx_enq2->me_cacheline); 2841 device_printf(sc->mlx_dev, " SCSI Capability %s%dMHz, %d bit\n", 2842 sc->mlx_enq2->me_scsi_cap & (1<<4) ? "differential " : "", 2843 (1 << ((sc->mlx_enq2->me_scsi_cap >> 2) & 3)) * 10, 2844 8 << (sc->mlx_enq2->me_scsi_cap & 0x3)); 2845 device_printf(sc->mlx_dev, " Firmware Build Number %d\n", sc->mlx_enq2->me_firmware_build); 2846 device_printf(sc->mlx_dev, " Fault Management Type %d\n", sc->mlx_enq2->me_fault_mgmt_type); 2847 device_printf(sc->mlx_dev, " Features %b\n", sc->mlx_enq2->me_firmware_features, 2848 "\20\4Background Init\3Read Ahead\2MORE\1Cluster\n"); 2849 2850 } 2851 } 2852 2853 /******************************************************************************* 2854 * Emit a string describing the firmware handshake status code, and return a flag 2855 * indicating whether the code represents a fatal error. 2856 * 2857 * Error code interpretations are from the Linux driver, and don't directly match 2858 * the messages printed by Mylex's BIOS. This may change if documentation on the 2859 * codes is forthcoming. 2860 */ 2861 static int 2862 mlx_fw_message(struct mlx_softc *sc, int error, int param1, int param2) 2863 { 2864 switch(error) { 2865 case 0x00: 2866 device_printf(sc->mlx_dev, "physical drive %d:%d not responding\n", param2, param1); 2867 break; 2868 case 0x08: 2869 /* we could be neater about this and give some indication when we receive more of them */ 2870 if (!(sc->mlx_flags & MLX_SPINUP_REPORTED)) { 2871 device_printf(sc->mlx_dev, "spinning up drives...\n"); 2872 sc->mlx_flags |= MLX_SPINUP_REPORTED; 2873 } 2874 break; 2875 case 0x30: 2876 device_printf(sc->mlx_dev, "configuration checksum error\n"); 2877 break; 2878 case 0x60: 2879 device_printf(sc->mlx_dev, "mirror race recovery failed\n"); 2880 break; 2881 case 0x70: 2882 device_printf(sc->mlx_dev, "mirror race recovery in progress\n"); 2883 break; 2884 case 0x90: 2885 device_printf(sc->mlx_dev, "physical drive %d:%d COD mismatch\n", param2, param1); 2886 break; 2887 case 0xa0: 2888 device_printf(sc->mlx_dev, "logical drive installation aborted\n"); 2889 break; 2890 case 0xb0: 2891 device_printf(sc->mlx_dev, "mirror race on a critical system drive\n"); 2892 break; 2893 case 0xd0: 2894 device_printf(sc->mlx_dev, "new controller configuration found\n"); 2895 break; 2896 case 0xf0: 2897 device_printf(sc->mlx_dev, "FATAL MEMORY PARITY ERROR\n"); 2898 return(1); 2899 default: 2900 device_printf(sc->mlx_dev, "unknown firmware initialisation error %02x:%02x:%02x\n", error, param1, param2); 2901 break; 2902 } 2903 return(0); 2904 } 2905 2906 /******************************************************************************** 2907 ******************************************************************************** 2908 Utility Functions 2909 ******************************************************************************** 2910 ********************************************************************************/ 2911 2912 /******************************************************************************** 2913 * Find the disk whose unit number is (unit) on this controller 2914 */ 2915 static struct mlx_sysdrive * 2916 mlx_findunit(struct mlx_softc *sc, int unit) 2917 { 2918 int i; 2919 2920 /* search system drives */ 2921 for (i = 0; i < MLX_MAXDRIVES; i++) { 2922 /* is this one attached? */ 2923 if (sc->mlx_sysdrive[i].ms_disk != 0) { 2924 /* is this the one? */ 2925 if (unit == device_get_unit(sc->mlx_sysdrive[i].ms_disk)) 2926 return(&sc->mlx_sysdrive[i]); 2927 } 2928 } 2929 return(NULL); 2930 } 2931