1/*- 2 * Copyright (c) 2013 Phileas Fogg 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 NETBSD FOUNDATION, INC. AND CONTRIBUTORS 15 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 16 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 17 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 18 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 19 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 20 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 21 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 22 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 23 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 24 * POSSIBILITY OF SUCH DAMAGE. 25 */ 26 27#include <sys/param.h> 28#include <sys/systm.h> 29#include <sys/kernel.h> 30#include <sys/malloc.h> 31#include <sys/device.h> 32#include <sys/proc.h> 33#include <sys/mutex.h> 34#include <sys/time.h> 35#include <sys/reboot.h> 36#include <sys/sysctl.h> 37#include <sys/kthread.h> 38 39#include <machine/autoconf.h> 40 41#include <dev/ofw/openfirm.h> 42#include <dev/i2c/i2cvar.h> 43#include <dev/clock_subr.h> 44#include <dev/sysmon/sysmonvar.h> 45#include <dev/sysmon/sysmon_taskq.h> 46 47#include <macppc/dev/obiovar.h> 48#include <macppc/dev/smuvar.h> 49#include <macppc/dev/fancontrolvar.h> 50 51#include "opt_smu.h" 52 53struct smu_softc; 54 55struct smu_cmd { 56 u_char cmd; 57 u_char len; 58 u_char data[254]; 59}; 60 61struct smu_fan { 62 struct smu_softc* sc; 63 64 char location[32]; 65 int reg; 66 int zone; 67 int rpm_ctl; 68 int min_rpm; 69 int max_rpm; 70 int default_rpm; 71 int wanted_rpm; 72 int current_rpm; 73 int fault; 74 time_t last_update; 75}; 76 77struct smu_iicbus { 78 struct smu_softc* sc; 79 80 int reg; 81 struct i2c_controller i2c; 82}; 83 84#define SMU_MAX_FANS 8 85#define SMU_MAX_IICBUS 3 86#define SMU_MAX_SME_SENSORS (SMU_MAX_FANS + 8) 87 88 89#define SMU_ZONE_CPU 0 90#define SMU_ZONE_CASE 1 91#define SMU_ZONE_DRIVEBAY 2 92#define SMU_ZONES 3 93 94#define C_TO_uK(n) (n * 1000000 + 273150000) 95 96struct smu_softc { 97 device_t sc_dev; 98 int sc_node; 99 struct sysctlnode *sc_sysctl_me; 100 101 kmutex_t sc_cmd_lock; 102 kmutex_t sc_msg_lock; 103 struct smu_cmd *sc_cmd; 104 paddr_t sc_cmd_paddr; 105 int sc_dbell_mbox; 106 int sc_dbell_gpio; 107 108 int sc_num_fans; 109 struct smu_fan sc_fans[SMU_MAX_FANS]; 110 111 int sc_num_iicbus; 112 struct smu_iicbus sc_iicbus[SMU_MAX_IICBUS]; 113 114 struct todr_chip_handle sc_todr; 115 116 struct sysmon_envsys *sc_sme; 117 envsys_data_t sc_sme_sensors[SMU_MAX_SME_SENSORS]; 118 uint32_t cpu_m; 119 int32_t cpu_b; 120 121 fancontrol_zone_t sc_zones[SMU_ZONES]; 122 lwp_t *sc_thread; 123 bool sc_dying; 124}; 125 126#define SMU_CMD_FAN 0x4a 127#define SMU_CMD_RTC 0x8e 128#define SMU_CMD_I2C 0x9a 129#define SMU_CMD_POWER 0xaa 130#define SMU_CMD_ADC 0xd8 131#define SMU_MISC 0xee 132#define SMU_MISC_GET_DATA 0x02 133#define SMU_MISC_LED_CTRL 0x04 134 135#define SMU_CPUTEMP_CAL 0x18 136#define SMU_CPUVOLT_CAL 0x21 137#define SMU_SLOTPW_CAL 0x78 138 139#define SMU_PARTITION 0x3e 140#define SMU_PARTITION_LATEST 0x01 141#define SMU_PARTITION_BASE 0x02 142#define SMU_PARTITION_UPDATE 0x03 143 144#ifdef SMU_DEBUG 145#define DPRINTF printf 146#else 147#define DPRINTF while (0) printf 148#endif 149 150static int smu_match(device_t, struct cfdata *, void *); 151static void smu_attach(device_t, device_t, void *); 152static int smu_setup_doorbell(struct smu_softc *); 153static void smu_setup_fans(struct smu_softc *); 154static void smu_setup_iicbus(struct smu_softc *); 155static void smu_setup_sme(struct smu_softc *); 156static int smu_iicbus_print(void *, const char *); 157static void smu_sme_refresh(struct sysmon_envsys *, envsys_data_t *); 158static int smu_do_cmd(struct smu_softc *, struct smu_cmd *, int); 159static int smu_dbell_gpio_intr(void *); 160static int smu_todr_gettime_ymdhms(todr_chip_handle_t, struct clock_ymdhms *); 161static int smu_todr_settime_ymdhms(todr_chip_handle_t, struct clock_ymdhms *); 162static int smu_fan_update_rpm(struct smu_fan *); 163static int smu_read_adc(struct smu_softc *, int); 164 165static int smu_iicbus_exec(void *, i2c_op_t, i2c_addr_t, const void *, 166 size_t, void *, size_t, int); 167 168static void smu_setup_zones(struct smu_softc *); 169static void smu_adjust(void *); 170 171static bool is_cpu_sensor(const envsys_data_t *); 172static bool is_drive_sensor(const envsys_data_t *); 173static bool is_slots_sensor(const envsys_data_t *); 174static int smu_fan_get_rpm(void *, int); 175static int smu_fan_set_rpm(void *, int, int); 176 177int smu_get_datablock(int, uint8_t *, size_t); 178 179CFATTACH_DECL_NEW(smu, sizeof(struct smu_softc), 180 smu_match, smu_attach, NULL, NULL); 181 182static struct smu_softc *smu0 = NULL; 183 184static int 185smu_match(device_t parent, struct cfdata *cf, void *aux) 186{ 187 struct confargs *ca = aux; 188 189 if (strcmp(ca->ca_name, "smu") == 0) 190 return 5; 191 192 return 0; 193} 194 195static void 196smu_attach(device_t parent, device_t self, void *aux) 197{ 198 struct confargs *ca = aux; 199 struct smu_softc *sc = device_private(self); 200 uint16_t data[4]; 201 202 sc->sc_dev = self; 203 sc->sc_node = ca->ca_node; 204 205 if (smu0 == NULL) 206 smu0 = sc; 207 208 sysctl_createv(NULL, 0, NULL, (void *) &sc->sc_sysctl_me, 209 CTLFLAG_READWRITE, 210 CTLTYPE_NODE, device_xname(sc->sc_dev), NULL, 211 NULL, 0, NULL, 0, 212 CTL_MACHDEP, CTL_CREATE, CTL_EOL); 213 214 if (smu_setup_doorbell(sc) != 0) { 215 aprint_normal(": unable to set up doorbell\n"); 216 return; 217 } 218 219 aprint_normal("\n"); 220 221 smu_setup_fans(sc); 222 smu_setup_iicbus(sc); 223 224 sc->sc_todr.todr_gettime_ymdhms = smu_todr_gettime_ymdhms; 225 sc->sc_todr.todr_settime_ymdhms = smu_todr_settime_ymdhms; 226 sc->sc_todr.cookie = sc; 227 todr_attach(&sc->sc_todr); 228 229 /* calibration data */ 230 memset(data, 0, 8); 231 smu_get_datablock(SMU_CPUTEMP_CAL, (void *)data, 8); 232 DPRINTF("data %04x %04x %04x %04x\n", data[0], data[1], data[2], data[3]); 233 sc->cpu_m = data[2]; 234 sc->cpu_b = (int16_t)data[3]; 235 236 smu_setup_sme(sc); 237 238 smu_setup_zones(sc); 239} 240 241static int 242smu_setup_doorbell(struct smu_softc *sc) 243{ 244 int node, parent, reg[4], gpio_base, irq; 245 246 mutex_init(&sc->sc_cmd_lock, MUTEX_DEFAULT, IPL_NONE); 247 sc->sc_cmd = malloc(4096, M_DEVBUF, M_WAITOK); 248 sc->sc_cmd_paddr = vtophys((vaddr_t) sc->sc_cmd); 249 250 DPRINTF("%s: cmd vaddr 0x%x paddr 0x%x\n", 251 __func__, (unsigned int) sc->sc_cmd, 252 (unsigned int) sc->sc_cmd_paddr); 253 254 if (OF_getprop(sc->sc_node, "platform-doorbell-buff", 255 &node, sizeof(node)) <= 0) 256 return -1; 257 258 if (OF_getprop(node, "platform-do-doorbell-buff", 259 reg, sizeof(reg)) < sizeof(reg)) 260 return -1; 261 262 sc->sc_dbell_mbox = reg[3]; 263 264 if (OF_getprop(sc->sc_node, "platform-doorbell-ack", 265 &node, sizeof(node)) <= 0) 266 return -1; 267 268 parent = OF_parent(node); 269 if (parent == 0) 270 return -1; 271 272 if (OF_getprop(parent, "reg", &gpio_base, sizeof(gpio_base)) <= 0) 273 return -1; 274 275 if (OF_getprop(node, "reg", reg, sizeof(reg)) <= 0) 276 return -1; 277 278 if (OF_getprop(node, "interrupts", &irq, sizeof(irq)) <= 0) 279 return -1; 280 281 sc->sc_dbell_gpio = gpio_base + reg[0]; 282 283 aprint_normal(" mbox 0x%x gpio 0x%x irq %d", 284 sc->sc_dbell_mbox, sc->sc_dbell_gpio, irq); 285 286 intr_establish_xname(irq, IST_EDGE_FALLING, IPL_TTY, 287 smu_dbell_gpio_intr, sc, device_xname(sc->sc_dev)); 288 289 return 0; 290} 291 292static void 293smu_setup_fans(struct smu_softc *sc) 294{ 295 struct smu_fan *fan; 296 char type[32]; 297 int node, i; 298 const char *fans[] = { "fans", "rpm-fans", 0 }; 299 int n = 0; 300 301 while (fans[n][0] != 0) { 302 node = of_getnode_byname(sc->sc_node, fans[n]); 303 for (node = OF_child(node); 304 (node != 0) && (sc->sc_num_fans < SMU_MAX_FANS); 305 node = OF_peer(node)) { 306 fan = &sc->sc_fans[sc->sc_num_fans]; 307 fan->sc = sc; 308 309 memset(fan->location, 0, sizeof(fan->location)); 310 OF_getprop(node, "location", fan->location, 311 sizeof(fan->location)); 312 313 if (OF_getprop(node, "reg", &fan->reg, 314 sizeof(fan->reg)) <= 0) 315 continue; 316 317 if (OF_getprop(node, "zone", &fan->zone , 318 sizeof(fan->zone)) <= 0) 319 continue; 320 321 memset(type, 0, sizeof(type)); 322 OF_getprop(node, "device_type", type, sizeof(type)); 323 if (strcmp(type, "fan-rpm-control") == 0) 324 fan->rpm_ctl = 1; 325 else 326 fan->rpm_ctl = 0; 327 328 if (OF_getprop(node, "min-value", &fan->min_rpm, 329 sizeof(fan->min_rpm)) <= 0) 330 fan->min_rpm = 0; 331 332 if (OF_getprop(node, "max-value", &fan->max_rpm, 333 sizeof(fan->max_rpm)) <= 0) 334 fan->max_rpm = 0xffff; 335 336 if (OF_getprop(node, "unmanage-value", &fan->default_rpm, 337 sizeof(fan->default_rpm)) <= 0) 338 fan->default_rpm = fan->max_rpm; 339 340 DPRINTF("fan: location %s reg %x zone %d rpm_ctl %d " 341 "min_rpm %d max_rpm %d default_rpm %d\n", 342 fan->location, fan->reg, fan->zone, fan->rpm_ctl, 343 fan->min_rpm, fan->max_rpm, fan->default_rpm); 344 345 fan->wanted_rpm = fan->default_rpm; 346 fan->fault = 0; 347 sc->sc_num_fans++; 348 } 349 n++; 350 } 351 352 for (i = 0; i < sc->sc_num_fans; i++) { 353 fan = &sc->sc_fans[i]; 354 smu_fan_set_rpm(sc, i, fan->default_rpm); 355 smu_fan_update_rpm(fan); 356 } 357} 358 359static void 360smu_setup_iicbus(struct smu_softc *sc) 361{ 362 struct smu_iicbus *iicbus; 363 struct i2c_controller *i2c; 364 struct smu_iicbus_confargs ca; 365 int node; 366 char name[32]; 367 368 devhandle_t selfh = device_handle(sc->sc_dev); 369 node = of_getnode_byname(sc->sc_node, "smu-i2c-control"); 370 if (node == 0) node = sc->sc_node; 371 for (node = OF_child(node); 372 (node != 0) && (sc->sc_num_iicbus < SMU_MAX_IICBUS); 373 node = OF_peer(node)) { 374 memset(name, 0, sizeof(name)); 375 OF_getprop(node, "name", name, sizeof(name)); 376 if ((strcmp(name, "i2c-bus") != 0) && 377 (strcmp(name, "i2c") != 0)) 378 continue; 379 380 iicbus = &sc->sc_iicbus[sc->sc_num_iicbus]; 381 iicbus->sc = sc; 382 i2c = &iicbus->i2c; 383 384 if (OF_getprop(node, "reg", &iicbus->reg, sizeof(iicbus->reg)) <= 0) 385 continue; 386 387 DPRINTF("iicbus: reg %x\n", iicbus->reg); 388 389 iic_tag_init(i2c); 390 i2c->ic_cookie = iicbus; 391 i2c->ic_exec = smu_iicbus_exec; 392 393 ca.ca_name = name; 394 ca.ca_node = node; 395 ca.ca_tag = i2c; 396 config_found(sc->sc_dev, &ca, smu_iicbus_print, 397 CFARGS(.devhandle = devhandle_from_of(selfh, node))); 398 399 sc->sc_num_iicbus++; 400 } 401} 402 403static void 404smu_setup_sme(struct smu_softc *sc) 405{ 406 struct smu_fan *fan; 407 envsys_data_t *sme_sensor; 408 int i, sensors, child, reg; 409 char loc[32], type[32]; 410 411 sc->sc_sme = sysmon_envsys_create(); 412 413 for (i = 0; i < sc->sc_num_fans; i++) { 414 sme_sensor = &sc->sc_sme_sensors[i]; 415 fan = &sc->sc_fans[i]; 416 417 sme_sensor->units = ENVSYS_SFANRPM; 418 sme_sensor->state = ENVSYS_SINVALID; 419 snprintf(sme_sensor->desc, sizeof(sme_sensor->desc), 420 "%s", fan->location); 421 422 if (sysmon_envsys_sensor_attach(sc->sc_sme, sme_sensor)) { 423 sysmon_envsys_destroy(sc->sc_sme); 424 return; 425 } 426 } 427 sensors = OF_finddevice("/smu/sensors"); 428 child = OF_child(sensors); 429 while (child != 0) { 430 sme_sensor = &sc->sc_sme_sensors[i]; 431 if (OF_getprop(child, "location", loc, 32) == 0) goto next; 432 if (OF_getprop(child, "device_type", type, 32) == 0) goto next; 433 if (OF_getprop(child, "reg", ®, 4) == 0) goto next; 434 if (strcmp(type, "temp-sensor") == 0) { 435 sme_sensor->units = ENVSYS_STEMP; 436 sme_sensor->state = ENVSYS_SINVALID; 437 strncpy(sme_sensor->desc, loc, sizeof(sme_sensor->desc)); 438 sme_sensor->private = reg; 439 sysmon_envsys_sensor_attach(sc->sc_sme, sme_sensor); 440 i++; 441 printf("%s: %s@%x\n", loc, type, reg); 442 } 443next: 444 child = OF_peer(child); 445 } 446 447 sc->sc_sme->sme_name = device_xname(sc->sc_dev); 448 sc->sc_sme->sme_cookie = sc; 449 sc->sc_sme->sme_refresh = smu_sme_refresh; 450 451 if (sysmon_envsys_register(sc->sc_sme)) { 452 aprint_error_dev(sc->sc_dev, 453 "unable to register with sysmon\n"); 454 sysmon_envsys_destroy(sc->sc_sme); 455 } 456} 457 458static int 459smu_iicbus_print(void *aux, const char *smu) 460{ 461 struct smu_iicbus_confargs *ca = aux; 462 463 if (smu) 464 aprint_normal("%s at %s", ca->ca_name, smu); 465 466 return UNCONF; 467} 468 469static void 470smu_sme_refresh(struct sysmon_envsys *sme, envsys_data_t *edata) 471{ 472 struct smu_softc *sc = sme->sme_cookie; 473 int which = edata->sensor; 474 int ret; 475 476 edata->state = ENVSYS_SINVALID; 477 478 if (which < sc->sc_num_fans) { 479 480 ret = smu_fan_get_rpm(sc, which); 481 if (ret != -1) { 482 sc->sc_fans[which].current_rpm = ret; 483 edata->value_cur = ret; 484 edata->state = ENVSYS_SVALID; 485 } 486 } else if (edata->private > 0) { 487 /* this works only for the CPU diode */ 488 int64_t r = smu_read_adc(sc, edata->private); 489 if (r != -1) { 490 r = r * sc->cpu_m; 491 r >>= 3; 492 r += (int64_t)sc->cpu_b << 9; 493 r <<= 1; 494 r *= 15625; 495 r /= 1024; 496 edata->value_cur = r + 273150000; 497 edata->state = ENVSYS_SVALID; 498 } 499 } 500} 501 502static int 503smu_do_cmd(struct smu_softc *sc, struct smu_cmd *cmd, int timo) 504{ 505 int gpio, ret, bail; 506 u_char ack; 507 508 mutex_enter(&sc->sc_cmd_lock); 509 510 DPRINTF("%s: cmd %02x len %02x\n", __func__, cmd->cmd, cmd->len); 511 DPRINTF("%s: data %02x %02x %02x %02x %02x %02x %02x %02x\n", __func__, 512 cmd->data[0], cmd->data[1], cmd->data[2], cmd->data[3], 513 cmd->data[4], cmd->data[5], cmd->data[6], cmd->data[7]); 514 515 sc->sc_cmd->cmd = cmd->cmd; 516 sc->sc_cmd->len = cmd->len; 517 memcpy(sc->sc_cmd->data, cmd->data, cmd->len); 518 519 __asm volatile ("dcbf 0,%0; sync" :: "r"(sc->sc_cmd) : "memory"); 520 521 obio_write_4(sc->sc_dbell_mbox, sc->sc_cmd_paddr); 522 obio_write_1(sc->sc_dbell_gpio, 0x04); 523 524 bail = 0; 525 526 gpio = obio_read_1(sc->sc_dbell_gpio); 527 528 while (((gpio & 0x07) != 0x07) && (bail < timo)) { 529 ret = tsleep(sc->sc_cmd, PWAIT, "smu_cmd", mstohz(10)); 530 if (ret != 0) { 531 bail++; 532 } 533 gpio = obio_read_1(sc->sc_dbell_gpio); 534 } 535 536 if ((gpio & 0x07) != 0x07) { 537 mutex_exit(&sc->sc_cmd_lock); 538 return EWOULDBLOCK; 539 } 540 541 __asm volatile ("dcbf 0,%0; sync" :: "r"(sc->sc_cmd) : "memory"); 542 543 ack = (~cmd->cmd) & 0xff; 544 if (sc->sc_cmd->cmd != ack) { 545 DPRINTF("%s: invalid ack, got %x expected %x\n", 546 __func__, sc->sc_cmd->cmd, ack); 547 mutex_exit(&sc->sc_cmd_lock); 548 return EIO; 549 } 550 551 cmd->cmd = sc->sc_cmd->cmd; 552 cmd->len = sc->sc_cmd->len; 553 memcpy(cmd->data, sc->sc_cmd->data, sc->sc_cmd->len); 554 555 mutex_exit(&sc->sc_cmd_lock); 556 557 return 0; 558} 559 560 561static int 562smu_dbell_gpio_intr(void *arg) 563{ 564 struct smu_softc *sc = arg; 565 566 DPRINTF("%s\n", __func__); 567 568 wakeup(sc->sc_cmd); 569 570 return 1; 571} 572 573void 574smu_poweroff(void) 575{ 576 struct smu_cmd cmd; 577 578 if (smu0 == NULL) 579 return; 580 581 cmd.cmd = SMU_CMD_POWER; 582 strcpy(cmd.data, "SHUTDOWN"); 583 cmd.len = strlen(cmd.data) + 1; 584 smu_do_cmd(smu0, &cmd, 800); 585 586 for (;;); 587} 588 589void 590smu_restart(void) 591{ 592 struct smu_cmd cmd; 593 594 if (smu0 == NULL) 595 return; 596 597 cmd.cmd = SMU_CMD_POWER; 598 strcpy(cmd.data, "RESTART"); 599 cmd.len = strlen(cmd.data) + 1; 600 smu_do_cmd(smu0, &cmd, 800); 601 602 for (;;); 603} 604 605static int 606smu_todr_gettime_ymdhms(todr_chip_handle_t tch, struct clock_ymdhms *dt) 607{ 608 struct smu_softc *sc = tch->cookie; 609 struct smu_cmd cmd; 610 int ret; 611 612 cmd.cmd = SMU_CMD_RTC; 613 cmd.len = 1; 614 cmd.data[0] = 0x81; 615 616 ret = smu_do_cmd(sc, &cmd, 800); 617 if (ret != 0) 618 return ret; 619 620 dt->dt_sec = bcdtobin(cmd.data[0]); 621 dt->dt_min = bcdtobin(cmd.data[1]); 622 dt->dt_hour = bcdtobin(cmd.data[2]); 623 dt->dt_wday = bcdtobin(cmd.data[3]); 624 dt->dt_day = bcdtobin(cmd.data[4]); 625 dt->dt_mon = bcdtobin(cmd.data[5]); 626 dt->dt_year = bcdtobin(cmd.data[6]) + 2000; 627 628 return 0; 629} 630 631static int 632smu_todr_settime_ymdhms(todr_chip_handle_t tch, struct clock_ymdhms *dt) 633{ 634 struct smu_softc *sc = tch->cookie; 635 struct smu_cmd cmd; 636 637 cmd.cmd = SMU_CMD_RTC; 638 cmd.len = 8; 639 cmd.data[0] = 0x80; 640 cmd.data[1] = bintobcd(dt->dt_sec); 641 cmd.data[2] = bintobcd(dt->dt_min); 642 cmd.data[3] = bintobcd(dt->dt_hour); 643 cmd.data[4] = bintobcd(dt->dt_wday); 644 cmd.data[5] = bintobcd(dt->dt_day); 645 cmd.data[6] = bintobcd(dt->dt_mon); 646 cmd.data[7] = bintobcd(dt->dt_year - 2000); 647 648 return smu_do_cmd(sc, &cmd, 800); 649} 650 651static int 652smu_fan_update_rpm(struct smu_fan *fan) 653{ 654 struct smu_softc *sc = fan->sc; 655 struct smu_cmd cmd; 656 int ret, diff; 657 658 cmd.cmd = SMU_CMD_FAN; 659 cmd.len = 2; 660 cmd.data[0] = 0x31; 661 cmd.data[1] = fan->reg; 662 663 ret = smu_do_cmd(sc, &cmd, 800); 664 if (ret == 0) { 665 fan->last_update = time_uptime; 666 fan->current_rpm = (cmd.data[0] << 8) | cmd.data[1]; 667 } else { 668 cmd.cmd = SMU_CMD_FAN; 669 cmd.len = 1; 670 cmd.data[0] = 0x01; 671 672 ret = smu_do_cmd(sc, &cmd, 800); 673 if (ret == 0) { 674 fan->last_update = time_uptime; 675 fan->current_rpm = (cmd.data[1 + fan->reg * 2] << 8) | 676 cmd.data[2 + fan->reg * 2]; 677 } 678 } 679 diff = abs(fan->current_rpm - fan->wanted_rpm); 680 if (diff > fan->max_rpm >> 3) { 681 fan->fault++; 682 } else fan->fault = 0; 683 return ret; 684} 685 686static int 687smu_fan_get_rpm(void *cookie, int which) 688{ 689 struct smu_softc *sc = cookie; 690 struct smu_fan *fan = &sc->sc_fans[which]; 691 int ret; 692 ret = 0; 693 694 if (time_uptime - fan->last_update > 1) { 695 ret = smu_fan_update_rpm(fan); 696 if (ret != 0) 697 return -1; 698 } 699 700 return fan->current_rpm; 701} 702 703static int 704smu_fan_set_rpm(void *cookie, int which, int rpm) 705{ 706 struct smu_softc *sc = cookie; 707 struct smu_fan *fan = &sc->sc_fans[which]; 708 struct smu_cmd cmd; 709 int ret; 710 711 DPRINTF("%s: fan %s rpm %d\n", __func__, fan->location, rpm); 712 713 rpm = uimax(fan->min_rpm, rpm); 714 rpm = uimin(fan->max_rpm, rpm); 715 716 fan->wanted_rpm = rpm; 717 718 cmd.cmd = SMU_CMD_FAN; 719 cmd.len = 4; 720 cmd.data[0] = 0x30; 721 cmd.data[1] = fan->reg; 722 cmd.data[2] = (rpm >> 8) & 0xff; 723 cmd.data[3] = rpm & 0xff; 724 725 ret = smu_do_cmd(sc, &cmd, 800); 726 if (ret != 0) { 727 cmd.cmd = SMU_CMD_FAN; 728 cmd.len = 14; 729 cmd.data[0] = fan->rpm_ctl ? 0x00 : 0x10; 730 cmd.data[1] = 1 << fan->reg; 731 cmd.data[2] = cmd.data[2 + fan->reg * 2] = (rpm >> 8) & 0xff; 732 cmd.data[3] = cmd.data[3 + fan->reg * 2] = rpm & 0xff; 733 734 ret = smu_do_cmd(sc, &cmd, 800); 735 } 736 737 return ret; 738} 739 740static int 741smu_read_adc(struct smu_softc *sc, int id) 742{ 743 struct smu_cmd cmd; 744 int ret; 745 746 cmd.cmd = SMU_CMD_ADC; 747 cmd.len = 1; 748 cmd.data[0] = id; 749 750 ret = smu_do_cmd(sc, &cmd, 800); 751 if (ret == 0) { 752 return cmd.data[0] << 8 | cmd.data[1]; 753 } 754 return -1; 755} 756 757static int 758smu_iicbus_exec(void *cookie, i2c_op_t op, i2c_addr_t addr, const void *send, 759 size_t send_len, void *recv, size_t recv_len, int flags) 760{ 761 struct smu_iicbus *iicbus = cookie; 762 struct smu_softc *sc = iicbus->sc; 763 struct smu_cmd cmd; 764 int retries, ret; 765 766 DPRINTF("%s: op %x addr %x send_len %d recv_len %d\n", 767 __func__, op, addr, send_len, recv_len); 768 769 cmd.cmd = SMU_CMD_I2C; 770 cmd.len = 9 + recv_len; 771 cmd.data[0] = iicbus->reg; 772 cmd.data[1] = I2C_OP_READ_P(op) ? 0x02 : 0x00; 773 cmd.data[2] = addr << 1; 774 cmd.data[3] = send_len; 775 memcpy(&cmd.data[4], send, send_len); 776 cmd.data[7] = addr << 1; 777 if (I2C_OP_READ_P(op)) 778 cmd.data[7] |= 0x01; 779 cmd.data[8] = recv_len; 780 memcpy(&cmd.data[9], recv, recv_len); 781 782 ret = smu_do_cmd(sc, &cmd, 800); 783 if (ret != 0) 784 return (ret); 785 786 for (retries = 0; retries < 10; retries++) { 787 cmd.cmd = SMU_CMD_I2C; 788 cmd.len = 1; 789 cmd.data[0] = 0x00; 790 memset(&cmd.data[1], 0xff, recv_len); 791 792 ret = smu_do_cmd(sc, &cmd, 800); 793 794 DPRINTF("%s: cmd data[0] %x\n", __func__, cmd.data[0]); 795 796 if (ret == 0 && (cmd.data[0] & 0x80) == 0) 797 break; 798 799 DELAY(10000); 800 } 801 802 if (cmd.data[0] & 0x80) 803 return EIO; 804 805 if (I2C_OP_READ_P(op)) 806 memcpy(recv, &cmd.data[1], recv_len); 807 808 return 0; 809} 810 811SYSCTL_SETUP(smu_sysctl_setup, "SMU sysctl subtree setup") 812{ 813 sysctl_createv(NULL, 0, NULL, NULL, 814 CTLFLAG_PERMANENT, CTLTYPE_NODE, "machdep", NULL, 815 NULL, 0, NULL, 0, CTL_MACHDEP, CTL_EOL); 816} 817 818static void 819smu_setup_zones(struct smu_softc *sc) 820{ 821 struct smu_fan *f; 822 fancontrol_zone_t *z; 823 int i; 824 825 /* init zones */ 826 sc->sc_zones[SMU_ZONE_CPU].name = "CPUs"; 827 sc->sc_zones[SMU_ZONE_CPU].filter = is_cpu_sensor; 828 sc->sc_zones[SMU_ZONE_CPU].cookie = sc; 829 sc->sc_zones[SMU_ZONE_CPU].get_rpm = smu_fan_get_rpm; 830 sc->sc_zones[SMU_ZONE_CPU].set_rpm = smu_fan_set_rpm; 831 sc->sc_zones[SMU_ZONE_CPU].Tmin = 45; 832 sc->sc_zones[SMU_ZONE_CPU].Tmax = 80; 833 sc->sc_zones[SMU_ZONE_CPU].nfans = 0; 834 sc->sc_zones[SMU_ZONE_CASE].name = "Slots"; 835 sc->sc_zones[SMU_ZONE_CASE].filter = is_slots_sensor; 836 sc->sc_zones[SMU_ZONE_CASE].cookie = sc; 837 sc->sc_zones[SMU_ZONE_CASE].Tmin = 50; 838 sc->sc_zones[SMU_ZONE_CASE].Tmax = 75; 839 sc->sc_zones[SMU_ZONE_CASE].nfans = 0; 840 sc->sc_zones[SMU_ZONE_CASE].get_rpm = smu_fan_get_rpm; 841 sc->sc_zones[SMU_ZONE_CASE].set_rpm = smu_fan_set_rpm; 842 sc->sc_zones[SMU_ZONE_DRIVEBAY].name = "Drivebays"; 843 sc->sc_zones[SMU_ZONE_DRIVEBAY].filter = is_drive_sensor; 844 sc->sc_zones[SMU_ZONE_DRIVEBAY].cookie = sc; 845 sc->sc_zones[SMU_ZONE_DRIVEBAY].get_rpm = smu_fan_get_rpm; 846 sc->sc_zones[SMU_ZONE_DRIVEBAY].set_rpm = smu_fan_set_rpm; 847 sc->sc_zones[SMU_ZONE_DRIVEBAY].Tmin = 30; 848 sc->sc_zones[SMU_ZONE_DRIVEBAY].Tmax = 50; 849 sc->sc_zones[SMU_ZONE_DRIVEBAY].nfans = 0; 850 851 /* find CPU fans */ 852 z = &sc->sc_zones[SMU_ZONE_CPU]; 853 for (i = 0; i < SMU_MAX_FANS; i++) { 854 f = &sc->sc_fans[i]; 855 if ((strstr(f->location, "CPU") != NULL) || 856 (strstr(f->location, "System") != NULL)) { 857 z->fans[z->nfans].num = i; 858 z->fans[z->nfans].min_rpm = f->min_rpm; 859 z->fans[z->nfans].max_rpm = f->max_rpm; 860 z->fans[z->nfans].name = f->location; 861 z->nfans++; 862 } 863 } 864 aprint_normal_dev(sc->sc_dev, 865 "using %d fans for CPU zone\n", z->nfans); 866 867 z = &sc->sc_zones[SMU_ZONE_DRIVEBAY]; 868 for (i = 0; i < SMU_MAX_FANS; i++) { 869 f = &sc->sc_fans[i]; 870 if ((strstr(f->location, "DRIVE") != NULL) || 871 (strstr(f->location, "Drive") != NULL)) { 872 z->fans[z->nfans].num = i; 873 z->fans[z->nfans].min_rpm = f->min_rpm; 874 z->fans[z->nfans].max_rpm = f->max_rpm; 875 z->fans[z->nfans].name = f->location; 876 z->nfans++; 877 } 878 } 879 aprint_normal_dev(sc->sc_dev, 880 "using %d fans for drive bay zone\n", z->nfans); 881 882 z = &sc->sc_zones[SMU_ZONE_CASE]; 883 for (i = 0; i < SMU_MAX_FANS; i++) { 884 f = &sc->sc_fans[i]; 885 if ((strstr(f->location, "BACKSIDE") != NULL) || 886 (strstr(f->location, "SLOTS") != NULL)) { 887 z->fans[z->nfans].num = i; 888 z->fans[z->nfans].min_rpm = f->min_rpm; 889 z->fans[z->nfans].max_rpm = f->max_rpm; 890 z->fans[z->nfans].name = f->location; 891 z->nfans++; 892 } 893 } 894 aprint_normal_dev(sc->sc_dev, 895 "using %d fans for expansion slots zone\n", z->nfans); 896 897 /* setup sysctls for our zones etc. */ 898 for (i = 0; i < SMU_ZONES; i++) { 899 fancontrol_init_zone(&sc->sc_zones[i], sc->sc_sysctl_me); 900 } 901 902 sc->sc_dying = false; 903 kthread_create(PRI_NONE, 0, curcpu(), smu_adjust, sc, &sc->sc_thread, 904 "fan control"); 905} 906 907static void 908smu_adjust(void *cookie) 909{ 910 struct smu_softc *sc = cookie; 911 int i; 912 913 while (!sc->sc_dying) { 914 for (i = 0; i < SMU_ZONES; i++) 915 if (sc->sc_zones[i].nfans > 0) 916 fancontrol_adjust_zone(&sc->sc_zones[i]); 917 kpause("fanctrl", true, mstohz(2000), NULL); 918 } 919 kthread_exit(0); 920} 921 922static bool is_cpu_sensor(const envsys_data_t *edata) 923{ 924 if (edata->units != ENVSYS_STEMP) 925 return false; 926 if (strstr(edata->desc, "CPU") != NULL) 927 return TRUE; 928 return false; 929} 930 931static bool is_drive_sensor(const envsys_data_t *edata) 932{ 933 if (edata->units != ENVSYS_STEMP) 934 return false; 935 if (strstr(edata->desc, "DRIVE") != NULL) 936 return TRUE; 937 if (strstr(edata->desc, "drive") != NULL) 938 return TRUE; 939 return false; 940} 941 942static bool is_slots_sensor(const envsys_data_t *edata) 943{ 944 if (edata->units != ENVSYS_STEMP) 945 return false; 946 if (strstr(edata->desc, "BACKSIDE") != NULL) 947 return TRUE; 948 if (strstr(edata->desc, "INLET") != NULL) 949 return TRUE; 950 if (strstr(edata->desc, "DIODE") != NULL) 951 return TRUE; 952 if (strstr(edata->desc, "TUNNEL") != NULL) 953 return TRUE; 954 return false; 955} 956 957int 958smu_get_datablock(int id, uint8_t *buf, size_t len) 959{ 960 struct smu_cmd cmd; 961 962 cmd.cmd = SMU_PARTITION; 963 cmd.len = 2; 964 cmd.data[0] = SMU_PARTITION_LATEST; 965 cmd.data[1] = id; 966 smu_do_cmd(smu0, &cmd, 100); 967 968 cmd.data[4] = cmd.data[0]; 969 cmd.data[5] = cmd.data[1]; 970 971 cmd.cmd = SMU_MISC; 972 cmd.len = 7; 973 cmd.data[0] = SMU_MISC_GET_DATA; 974 cmd.data[1] = 4; 975 cmd.data[2] = 0; 976 cmd.data[3] = 0; 977 cmd.data[6] = len; 978 smu_do_cmd(smu0, &cmd, 100); 979 980 memcpy(buf, cmd.data, len); 981 return 0; 982} 983