1/*- 2 * Copyright (c) 2006 Michael Lorenz 3 * Copyright 2008 by Nathan Whitehorn 4 * All rights reserved. 5 * 6 * Redistribution and use in source and binary forms, with or without 7 * modification, are permitted provided that the following conditions 8 * are met: 9 * 1. Redistributions of source code must retain the above copyright 10 * notice, this list of conditions and the following disclaimer. 11 * 2. Redistributions in binary form must reproduce the above copyright 12 * notice, this list of conditions and the following disclaimer in the 13 * documentation and/or other materials provided with the distribution. 14 * 3. The name of the author may not be used to endorse or promote products 15 * derived from this software without specific prior written permission. 16 * 17 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 18 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 19 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 20 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 21 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 22 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 23 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 24 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 25 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 26 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 27 * SUCH DAMAGE. 28 * 29 */ 30 31#include <sys/cdefs.h> 32__FBSDID("$FreeBSD$"); 33 34#include <sys/param.h> 35#include <sys/systm.h> 36#include <sys/module.h> 37#include <sys/bus.h> 38#include <sys/conf.h> 39#include <sys/kernel.h> 40#include <sys/clock.h> 41#include <sys/reboot.h> 42 43#include <dev/ofw/ofw_bus.h> 44#include <dev/ofw/openfirm.h> 45 46#include <machine/bus.h> 47#include <machine/intr_machdep.h> 48#include <machine/md_var.h> 49#include <machine/pio.h> 50#include <machine/resource.h> 51 52#include <vm/vm.h> 53#include <vm/pmap.h> 54 55#include <sys/rman.h> 56 57#include <dev/adb/adb.h> 58 59#include "clock_if.h" 60#include "cudavar.h" 61#include "viareg.h" 62 63/* 64 * MacIO interface 65 */ 66static int cuda_probe(device_t); 67static int cuda_attach(device_t); 68static int cuda_detach(device_t); 69 70static u_int cuda_adb_send(device_t dev, u_char command_byte, int len, 71 u_char *data, u_char poll); 72static u_int cuda_adb_autopoll(device_t dev, uint16_t mask); 73static u_int cuda_poll(device_t dev); 74static void cuda_send_inbound(struct cuda_softc *sc); 75static void cuda_send_outbound(struct cuda_softc *sc); 76static void cuda_shutdown(void *xsc, int howto); 77 78/* 79 * Clock interface 80 */ 81static int cuda_gettime(device_t dev, struct timespec *ts); 82static int cuda_settime(device_t dev, struct timespec *ts); 83 84static device_method_t cuda_methods[] = { 85 /* Device interface */ 86 DEVMETHOD(device_probe, cuda_probe), 87 DEVMETHOD(device_attach, cuda_attach), 88 DEVMETHOD(device_detach, cuda_detach), 89 DEVMETHOD(device_shutdown, bus_generic_shutdown), 90 DEVMETHOD(device_suspend, bus_generic_suspend), 91 DEVMETHOD(device_resume, bus_generic_resume), 92 93 /* ADB bus interface */ 94 DEVMETHOD(adb_hb_send_raw_packet, cuda_adb_send), 95 DEVMETHOD(adb_hb_controller_poll, cuda_poll), 96 DEVMETHOD(adb_hb_set_autopoll_mask, cuda_adb_autopoll), 97 98 /* Clock interface */ 99 DEVMETHOD(clock_gettime, cuda_gettime), 100 DEVMETHOD(clock_settime, cuda_settime), 101 102 DEVMETHOD_END 103}; 104 105static driver_t cuda_driver = { 106 "cuda", 107 cuda_methods, 108 sizeof(struct cuda_softc), 109}; 110 111static devclass_t cuda_devclass; 112 113DRIVER_MODULE(cuda, macio, cuda_driver, cuda_devclass, 0, 0); 114DRIVER_MODULE(adb, cuda, adb_driver, adb_devclass, 0, 0); 115 116static void cuda_intr(void *arg); 117static uint8_t cuda_read_reg(struct cuda_softc *sc, u_int offset); 118static void cuda_write_reg(struct cuda_softc *sc, u_int offset, uint8_t value); 119static void cuda_idle(struct cuda_softc *); 120static void cuda_tip(struct cuda_softc *); 121static void cuda_clear_tip(struct cuda_softc *); 122static void cuda_in(struct cuda_softc *); 123static void cuda_out(struct cuda_softc *); 124static void cuda_toggle_ack(struct cuda_softc *); 125static void cuda_ack_off(struct cuda_softc *); 126static int cuda_intr_state(struct cuda_softc *); 127 128static int 129cuda_probe(device_t dev) 130{ 131 const char *type = ofw_bus_get_type(dev); 132 133 if (strcmp(type, "via-cuda") != 0) 134 return (ENXIO); 135 136 device_set_desc(dev, CUDA_DEVSTR); 137 return (0); 138} 139 140static int 141cuda_attach(device_t dev) 142{ 143 struct cuda_softc *sc; 144 145 volatile int i; 146 uint8_t reg; 147 phandle_t node,child; 148 149 sc = device_get_softc(dev); 150 sc->sc_dev = dev; 151 152 sc->sc_memrid = 0; 153 sc->sc_memr = bus_alloc_resource_any(dev, SYS_RES_MEMORY, 154 &sc->sc_memrid, RF_ACTIVE); 155 156 if (sc->sc_memr == NULL) { 157 device_printf(dev, "Could not alloc mem resource!\n"); 158 return (ENXIO); 159 } 160 161 sc->sc_irqrid = 0; 162 sc->sc_irq = bus_alloc_resource_any(dev, SYS_RES_IRQ, &sc->sc_irqrid, 163 RF_ACTIVE); 164 if (sc->sc_irq == NULL) { 165 device_printf(dev, "could not allocate interrupt\n"); 166 return (ENXIO); 167 } 168 169 if (bus_setup_intr(dev, sc->sc_irq, INTR_TYPE_MISC | INTR_MPSAFE 170 | INTR_ENTROPY, NULL, cuda_intr, dev, &sc->sc_ih) != 0) { 171 device_printf(dev, "could not setup interrupt\n"); 172 bus_release_resource(dev, SYS_RES_IRQ, sc->sc_irqrid, 173 sc->sc_irq); 174 return (ENXIO); 175 } 176 177 mtx_init(&sc->sc_mutex,"cuda",NULL,MTX_DEF | MTX_RECURSE); 178 179 sc->sc_sent = 0; 180 sc->sc_received = 0; 181 sc->sc_waiting = 0; 182 sc->sc_polling = 0; 183 sc->sc_state = CUDA_NOTREADY; 184 sc->sc_autopoll = 0; 185 sc->sc_rtc = -1; 186 187 STAILQ_INIT(&sc->sc_inq); 188 STAILQ_INIT(&sc->sc_outq); 189 STAILQ_INIT(&sc->sc_freeq); 190 191 for (i = 0; i < CUDA_MAXPACKETS; i++) 192 STAILQ_INSERT_TAIL(&sc->sc_freeq, &sc->sc_pkts[i], pkt_q); 193 194 /* Init CUDA */ 195 196 reg = cuda_read_reg(sc, vDirB); 197 reg |= 0x30; /* register B bits 4 and 5: outputs */ 198 cuda_write_reg(sc, vDirB, reg); 199 200 reg = cuda_read_reg(sc, vDirB); 201 reg &= 0xf7; /* register B bit 3: input */ 202 cuda_write_reg(sc, vDirB, reg); 203 204 reg = cuda_read_reg(sc, vACR); 205 reg &= ~vSR_OUT; /* make sure SR is set to IN */ 206 cuda_write_reg(sc, vACR, reg); 207 208 cuda_write_reg(sc, vACR, (cuda_read_reg(sc, vACR) | 0x0c) & ~0x10); 209 210 sc->sc_state = CUDA_IDLE; /* used by all types of hardware */ 211 212 cuda_write_reg(sc, vIER, 0x84); /* make sure VIA interrupts are on */ 213 214 cuda_idle(sc); /* reset ADB */ 215 216 /* Reset CUDA */ 217 218 i = cuda_read_reg(sc, vSR); /* clear interrupt */ 219 cuda_write_reg(sc, vIER, 0x04); /* no interrupts while clearing */ 220 cuda_idle(sc); /* reset state to idle */ 221 DELAY(150); 222 cuda_tip(sc); /* signal start of frame */ 223 DELAY(150); 224 cuda_toggle_ack(sc); 225 DELAY(150); 226 cuda_clear_tip(sc); 227 DELAY(150); 228 cuda_idle(sc); /* back to idle state */ 229 i = cuda_read_reg(sc, vSR); /* clear interrupt */ 230 cuda_write_reg(sc, vIER, 0x84); /* ints ok now */ 231 232 /* Initialize child buses (ADB) */ 233 node = ofw_bus_get_node(dev); 234 235 for (child = OF_child(node); child != 0; child = OF_peer(child)) { 236 char name[32]; 237 238 memset(name, 0, sizeof(name)); 239 OF_getprop(child, "name", name, sizeof(name)); 240 241 if (bootverbose) 242 device_printf(dev, "CUDA child <%s>\n",name); 243 244 if (strncmp(name, "adb", 4) == 0) { 245 sc->adb_bus = device_add_child(dev,"adb",-1); 246 } 247 } 248 249 clock_register(dev, 1000); 250 EVENTHANDLER_REGISTER(shutdown_final, cuda_shutdown, sc, 251 SHUTDOWN_PRI_LAST); 252 253 return (bus_generic_attach(dev)); 254} 255 256static int cuda_detach(device_t dev) { 257 struct cuda_softc *sc; 258 259 sc = device_get_softc(dev); 260 261 bus_teardown_intr(dev, sc->sc_irq, sc->sc_ih); 262 bus_release_resource(dev, SYS_RES_IRQ, sc->sc_irqrid, sc->sc_irq); 263 bus_release_resource(dev, SYS_RES_MEMORY, sc->sc_memrid, sc->sc_memr); 264 mtx_destroy(&sc->sc_mutex); 265 266 return (bus_generic_detach(dev)); 267} 268 269static uint8_t 270cuda_read_reg(struct cuda_softc *sc, u_int offset) { 271 return (bus_read_1(sc->sc_memr, offset)); 272} 273 274static void 275cuda_write_reg(struct cuda_softc *sc, u_int offset, uint8_t value) { 276 bus_write_1(sc->sc_memr, offset, value); 277} 278 279static void 280cuda_idle(struct cuda_softc *sc) 281{ 282 uint8_t reg; 283 284 reg = cuda_read_reg(sc, vBufB); 285 reg |= (vPB4 | vPB5); 286 cuda_write_reg(sc, vBufB, reg); 287} 288 289static void 290cuda_tip(struct cuda_softc *sc) 291{ 292 uint8_t reg; 293 294 reg = cuda_read_reg(sc, vBufB); 295 reg &= ~vPB5; 296 cuda_write_reg(sc, vBufB, reg); 297} 298 299static void 300cuda_clear_tip(struct cuda_softc *sc) 301{ 302 uint8_t reg; 303 304 reg = cuda_read_reg(sc, vBufB); 305 reg |= vPB5; 306 cuda_write_reg(sc, vBufB, reg); 307} 308 309static void 310cuda_in(struct cuda_softc *sc) 311{ 312 uint8_t reg; 313 314 reg = cuda_read_reg(sc, vACR); 315 reg &= ~vSR_OUT; 316 cuda_write_reg(sc, vACR, reg); 317} 318 319static void 320cuda_out(struct cuda_softc *sc) 321{ 322 uint8_t reg; 323 324 reg = cuda_read_reg(sc, vACR); 325 reg |= vSR_OUT; 326 cuda_write_reg(sc, vACR, reg); 327} 328 329static void 330cuda_toggle_ack(struct cuda_softc *sc) 331{ 332 uint8_t reg; 333 334 reg = cuda_read_reg(sc, vBufB); 335 reg ^= vPB4; 336 cuda_write_reg(sc, vBufB, reg); 337} 338 339static void 340cuda_ack_off(struct cuda_softc *sc) 341{ 342 uint8_t reg; 343 344 reg = cuda_read_reg(sc, vBufB); 345 reg |= vPB4; 346 cuda_write_reg(sc, vBufB, reg); 347} 348 349static int 350cuda_intr_state(struct cuda_softc *sc) 351{ 352 return ((cuda_read_reg(sc, vBufB) & vPB3) == 0); 353} 354 355static int 356cuda_send(void *cookie, int poll, int length, uint8_t *msg) 357{ 358 struct cuda_softc *sc = cookie; 359 device_t dev = sc->sc_dev; 360 struct cuda_packet *pkt; 361 362 if (sc->sc_state == CUDA_NOTREADY) 363 return (-1); 364 365 mtx_lock(&sc->sc_mutex); 366 367 pkt = STAILQ_FIRST(&sc->sc_freeq); 368 if (pkt == NULL) { 369 mtx_unlock(&sc->sc_mutex); 370 return (-1); 371 } 372 373 pkt->len = length - 1; 374 pkt->type = msg[0]; 375 memcpy(pkt->data, &msg[1], pkt->len); 376 377 STAILQ_REMOVE_HEAD(&sc->sc_freeq, pkt_q); 378 STAILQ_INSERT_TAIL(&sc->sc_outq, pkt, pkt_q); 379 380 /* 381 * If we already are sending a packet, we should bail now that this 382 * one has been added to the queue. 383 */ 384 385 if (sc->sc_waiting) { 386 mtx_unlock(&sc->sc_mutex); 387 return (0); 388 } 389 390 cuda_send_outbound(sc); 391 mtx_unlock(&sc->sc_mutex); 392 393 if (sc->sc_polling || poll || cold) 394 cuda_poll(dev); 395 396 return (0); 397} 398 399static void 400cuda_send_outbound(struct cuda_softc *sc) 401{ 402 struct cuda_packet *pkt; 403 404 mtx_assert(&sc->sc_mutex, MA_OWNED); 405 406 pkt = STAILQ_FIRST(&sc->sc_outq); 407 if (pkt == NULL) 408 return; 409 410 sc->sc_out_length = pkt->len + 1; 411 memcpy(sc->sc_out, &pkt->type, pkt->len + 1); 412 sc->sc_sent = 0; 413 414 STAILQ_REMOVE_HEAD(&sc->sc_outq, pkt_q); 415 STAILQ_INSERT_TAIL(&sc->sc_freeq, pkt, pkt_q); 416 417 sc->sc_waiting = 1; 418 419 cuda_poll(sc->sc_dev); 420 421 DELAY(150); 422 423 if (sc->sc_state == CUDA_IDLE && !cuda_intr_state(sc)) { 424 sc->sc_state = CUDA_OUT; 425 cuda_out(sc); 426 cuda_write_reg(sc, vSR, sc->sc_out[0]); 427 cuda_ack_off(sc); 428 cuda_tip(sc); 429 } 430} 431 432static void 433cuda_send_inbound(struct cuda_softc *sc) 434{ 435 device_t dev; 436 struct cuda_packet *pkt; 437 438 dev = sc->sc_dev; 439 440 mtx_lock(&sc->sc_mutex); 441 442 while ((pkt = STAILQ_FIRST(&sc->sc_inq)) != NULL) { 443 STAILQ_REMOVE_HEAD(&sc->sc_inq, pkt_q); 444 445 mtx_unlock(&sc->sc_mutex); 446 447 /* check if we have a handler for this message */ 448 switch (pkt->type) { 449 case CUDA_ADB: 450 if (pkt->len > 2) { 451 adb_receive_raw_packet(sc->adb_bus, 452 pkt->data[0],pkt->data[1], 453 pkt->len - 2,&pkt->data[2]); 454 } else { 455 adb_receive_raw_packet(sc->adb_bus, 456 pkt->data[0],pkt->data[1],0,NULL); 457 } 458 break; 459 case CUDA_PSEUDO: 460 mtx_lock(&sc->sc_mutex); 461 switch (pkt->data[1]) { 462 case CMD_AUTOPOLL: 463 sc->sc_autopoll = 1; 464 break; 465 case CMD_READ_RTC: 466 memcpy(&sc->sc_rtc, &pkt->data[2], 467 sizeof(sc->sc_rtc)); 468 wakeup(&sc->sc_rtc); 469 break; 470 case CMD_WRITE_RTC: 471 break; 472 } 473 mtx_unlock(&sc->sc_mutex); 474 break; 475 case CUDA_ERROR: 476 /* 477 * CUDA will throw errors if we miss a race between 478 * sending and receiving packets. This is already 479 * handled when we abort packet output to handle 480 * this packet in cuda_intr(). Thus, we ignore 481 * these messages. 482 */ 483 break; 484 default: 485 device_printf(dev,"unknown CUDA command %d\n", 486 pkt->type); 487 break; 488 } 489 490 mtx_lock(&sc->sc_mutex); 491 492 STAILQ_INSERT_TAIL(&sc->sc_freeq, pkt, pkt_q); 493 } 494 495 mtx_unlock(&sc->sc_mutex); 496} 497 498static u_int 499cuda_poll(device_t dev) 500{ 501 struct cuda_softc *sc = device_get_softc(dev); 502 503 if (sc->sc_state == CUDA_IDLE && !cuda_intr_state(sc) && 504 !sc->sc_waiting) 505 return (0); 506 507 cuda_intr(dev); 508 return (0); 509} 510 511static void 512cuda_intr(void *arg) 513{ 514 device_t dev; 515 struct cuda_softc *sc; 516 517 int i, ending, restart_send, process_inbound; 518 uint8_t reg; 519 520 dev = (device_t)arg; 521 sc = device_get_softc(dev); 522 523 mtx_lock(&sc->sc_mutex); 524 525 restart_send = 0; 526 process_inbound = 0; 527 reg = cuda_read_reg(sc, vIFR); 528 if ((reg & vSR_INT) != vSR_INT) { 529 mtx_unlock(&sc->sc_mutex); 530 return; 531 } 532 533 cuda_write_reg(sc, vIFR, 0x7f); /* Clear interrupt */ 534 535switch_start: 536 switch (sc->sc_state) { 537 case CUDA_IDLE: 538 /* 539 * This is an unexpected packet, so grab the first (dummy) 540 * byte, set up the proper vars, and tell the chip we are 541 * starting to receive the packet by setting the TIP bit. 542 */ 543 sc->sc_in[1] = cuda_read_reg(sc, vSR); 544 545 if (cuda_intr_state(sc) == 0) { 546 /* must have been a fake start */ 547 548 if (sc->sc_waiting) { 549 /* start over */ 550 DELAY(150); 551 sc->sc_state = CUDA_OUT; 552 sc->sc_sent = 0; 553 cuda_out(sc); 554 cuda_write_reg(sc, vSR, sc->sc_out[1]); 555 cuda_ack_off(sc); 556 cuda_tip(sc); 557 } 558 break; 559 } 560 561 cuda_in(sc); 562 cuda_tip(sc); 563 564 sc->sc_received = 1; 565 sc->sc_state = CUDA_IN; 566 break; 567 568 case CUDA_IN: 569 sc->sc_in[sc->sc_received] = cuda_read_reg(sc, vSR); 570 ending = 0; 571 572 if (sc->sc_received > 255) { 573 /* bitch only once */ 574 if (sc->sc_received == 256) { 575 device_printf(dev,"input overflow\n"); 576 ending = 1; 577 } 578 } else 579 sc->sc_received++; 580 581 /* intr off means this is the last byte (end of frame) */ 582 if (cuda_intr_state(sc) == 0) { 583 ending = 1; 584 } else { 585 cuda_toggle_ack(sc); 586 } 587 588 if (ending == 1) { /* end of message? */ 589 struct cuda_packet *pkt; 590 591 /* reset vars and signal the end of this frame */ 592 cuda_idle(sc); 593 594 /* Queue up the packet */ 595 pkt = STAILQ_FIRST(&sc->sc_freeq); 596 if (pkt != NULL) { 597 /* If we have a free packet, process it */ 598 599 pkt->len = sc->sc_received - 2; 600 pkt->type = sc->sc_in[1]; 601 memcpy(pkt->data, &sc->sc_in[2], pkt->len); 602 603 STAILQ_REMOVE_HEAD(&sc->sc_freeq, pkt_q); 604 STAILQ_INSERT_TAIL(&sc->sc_inq, pkt, pkt_q); 605 606 process_inbound = 1; 607 } 608 609 sc->sc_state = CUDA_IDLE; 610 sc->sc_received = 0; 611 612 /* 613 * If there is something waiting to be sent out, 614 * set everything up and send the first byte. 615 */ 616 if (sc->sc_waiting == 1) { 617 DELAY(1500); /* required */ 618 sc->sc_sent = 0; 619 sc->sc_state = CUDA_OUT; 620 621 /* 622 * If the interrupt is on, we were too slow 623 * and the chip has already started to send 624 * something to us, so back out of the write 625 * and start a read cycle. 626 */ 627 if (cuda_intr_state(sc)) { 628 cuda_in(sc); 629 cuda_idle(sc); 630 sc->sc_sent = 0; 631 sc->sc_state = CUDA_IDLE; 632 sc->sc_received = 0; 633 DELAY(150); 634 goto switch_start; 635 } 636 637 /* 638 * If we got here, it's ok to start sending 639 * so load the first byte and tell the chip 640 * we want to send. 641 */ 642 cuda_out(sc); 643 cuda_write_reg(sc, vSR, 644 sc->sc_out[sc->sc_sent]); 645 cuda_ack_off(sc); 646 cuda_tip(sc); 647 } 648 } 649 break; 650 651 case CUDA_OUT: 652 i = cuda_read_reg(sc, vSR); /* reset SR-intr in IFR */ 653 654 sc->sc_sent++; 655 if (cuda_intr_state(sc)) { /* ADB intr low during write */ 656 cuda_in(sc); /* make sure SR is set to IN */ 657 cuda_idle(sc); 658 sc->sc_sent = 0; /* must start all over */ 659 sc->sc_state = CUDA_IDLE; /* new state */ 660 sc->sc_received = 0; 661 sc->sc_waiting = 1; /* must retry when done with 662 * read */ 663 DELAY(150); 664 goto switch_start; /* process next state right 665 * now */ 666 break; 667 } 668 if (sc->sc_out_length == sc->sc_sent) { /* check for done */ 669 sc->sc_waiting = 0; /* done writing */ 670 sc->sc_state = CUDA_IDLE; /* signal bus is idle */ 671 cuda_in(sc); 672 cuda_idle(sc); 673 } else { 674 /* send next byte */ 675 cuda_write_reg(sc, vSR, sc->sc_out[sc->sc_sent]); 676 cuda_toggle_ack(sc); /* signal byte ready to 677 * shift */ 678 } 679 break; 680 681 case CUDA_NOTREADY: 682 break; 683 684 default: 685 break; 686 } 687 688 mtx_unlock(&sc->sc_mutex); 689 690 if (process_inbound) 691 cuda_send_inbound(sc); 692 693 mtx_lock(&sc->sc_mutex); 694 /* If we have another packet waiting, set it up */ 695 if (!sc->sc_waiting && sc->sc_state == CUDA_IDLE) 696 cuda_send_outbound(sc); 697 698 mtx_unlock(&sc->sc_mutex); 699 700} 701 702static u_int 703cuda_adb_send(device_t dev, u_char command_byte, int len, u_char *data, 704 u_char poll) 705{ 706 struct cuda_softc *sc = device_get_softc(dev); 707 uint8_t packet[16]; 708 int i; 709 710 /* construct an ADB command packet and send it */ 711 packet[0] = CUDA_ADB; 712 packet[1] = command_byte; 713 for (i = 0; i < len; i++) 714 packet[i + 2] = data[i]; 715 716 cuda_send(sc, poll, len + 2, packet); 717 718 return (0); 719} 720 721static u_int 722cuda_adb_autopoll(device_t dev, uint16_t mask) { 723 struct cuda_softc *sc = device_get_softc(dev); 724 725 uint8_t cmd[] = {CUDA_PSEUDO, CMD_AUTOPOLL, mask != 0}; 726 727 mtx_lock(&sc->sc_mutex); 728 729 if (cmd[2] == sc->sc_autopoll) { 730 mtx_unlock(&sc->sc_mutex); 731 return (0); 732 } 733 734 sc->sc_autopoll = -1; 735 cuda_send(sc, 1, 3, cmd); 736 737 mtx_unlock(&sc->sc_mutex); 738 739 return (0); 740} 741 742static void 743cuda_shutdown(void *xsc, int howto) 744{ 745 struct cuda_softc *sc = xsc; 746 uint8_t cmd[] = {CUDA_PSEUDO, 0}; 747 748 cmd[1] = (howto & RB_HALT) ? CMD_POWEROFF : CMD_RESET; 749 cuda_poll(sc->sc_dev); 750 cuda_send(sc, 1, 2, cmd); 751 752 while (1) 753 cuda_poll(sc->sc_dev); 754} 755 756#define DIFF19041970 2082844800 757 758static int 759cuda_gettime(device_t dev, struct timespec *ts) 760{ 761 struct cuda_softc *sc = device_get_softc(dev); 762 uint8_t cmd[] = {CUDA_PSEUDO, CMD_READ_RTC}; 763 764 mtx_lock(&sc->sc_mutex); 765 sc->sc_rtc = -1; 766 cuda_send(sc, 1, 2, cmd); 767 if (sc->sc_rtc == -1) 768 mtx_sleep(&sc->sc_rtc, &sc->sc_mutex, 0, "rtc", 100); 769 770 ts->tv_sec = sc->sc_rtc - DIFF19041970; 771 ts->tv_nsec = 0; 772 mtx_unlock(&sc->sc_mutex); 773 774 return (0); 775} 776 777static int 778cuda_settime(device_t dev, struct timespec *ts) 779{ 780 struct cuda_softc *sc = device_get_softc(dev); 781 uint8_t cmd[] = {CUDA_PSEUDO, CMD_WRITE_RTC, 0, 0, 0, 0}; 782 uint32_t sec; 783 784 sec = ts->tv_sec + DIFF19041970; 785 memcpy(&cmd[2], &sec, sizeof(sec)); 786 787 mtx_lock(&sc->sc_mutex); 788 cuda_send(sc, 0, 6, cmd); 789 mtx_unlock(&sc->sc_mutex); 790 791 return (0); 792} 793 794