tjh.dev / kernel
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kernel / drivers / platform / x86 / dell-laptop.c
at v4.5 2253 lines 57 kB view raw
1/* 2 * Driver for Dell laptop extras 3 * 4 * Copyright (c) Red Hat <mjg@redhat.com> 5 * Copyright (c) 2014 Gabriele Mazzotta <gabriele.mzt@gmail.com> 6 * Copyright (c) 2014 Pali Rohár <pali.rohar@gmail.com> 7 * 8 * Based on documentation in the libsmbios package: 9 * Copyright (C) 2005-2014 Dell Inc. 10 * 11 * This program is free software; you can redistribute it and/or modify 12 * it under the terms of the GNU General Public License version 2 as 13 * published by the Free Software Foundation. 14 */ 15 16#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt 17 18#include <linux/module.h> 19#include <linux/kernel.h> 20#include <linux/init.h> 21#include <linux/platform_device.h> 22#include <linux/backlight.h> 23#include <linux/err.h> 24#include <linux/dmi.h> 25#include <linux/io.h> 26#include <linux/rfkill.h> 27#include <linux/power_supply.h> 28#include <linux/acpi.h> 29#include <linux/mm.h> 30#include <linux/i8042.h> 31#include <linux/slab.h> 32#include <linux/debugfs.h> 33#include <linux/seq_file.h> 34#include <acpi/video.h> 35#include "../../firmware/dcdbas.h" 36#include "dell-rbtn.h" 37 38#define BRIGHTNESS_TOKEN 0x7d 39#define KBD_LED_OFF_TOKEN 0x01E1 40#define KBD_LED_ON_TOKEN 0x01E2 41#define KBD_LED_AUTO_TOKEN 0x01E3 42#define KBD_LED_AUTO_25_TOKEN 0x02EA 43#define KBD_LED_AUTO_50_TOKEN 0x02EB 44#define KBD_LED_AUTO_75_TOKEN 0x02EC 45#define KBD_LED_AUTO_100_TOKEN 0x02F6 46 47/* This structure will be modified by the firmware when we enter 48 * system management mode, hence the volatiles */ 49 50struct calling_interface_buffer { 51 u16 class; 52 u16 select; 53 volatile u32 input[4]; 54 volatile u32 output[4]; 55} __packed; 56 57struct calling_interface_token { 58 u16 tokenID; 59 u16 location; 60 union { 61 u16 value; 62 u16 stringlength; 63 }; 64}; 65 66struct calling_interface_structure { 67 struct dmi_header header; 68 u16 cmdIOAddress; 69 u8 cmdIOCode; 70 u32 supportedCmds; 71 struct calling_interface_token tokens[]; 72} __packed; 73 74struct quirk_entry { 75 u8 touchpad_led; 76 77 int needs_kbd_timeouts; 78 /* 79 * Ordered list of timeouts expressed in seconds. 80 * The list must end with -1 81 */ 82 int kbd_timeouts[]; 83}; 84 85static struct quirk_entry *quirks; 86 87static struct quirk_entry quirk_dell_vostro_v130 = { 88 .touchpad_led = 1, 89}; 90 91static int __init dmi_matched(const struct dmi_system_id *dmi) 92{ 93 quirks = dmi->driver_data; 94 return 1; 95} 96 97/* 98 * These values come from Windows utility provided by Dell. If any other value 99 * is used then BIOS silently set timeout to 0 without any error message. 100 */ 101static struct quirk_entry quirk_dell_xps13_9333 = { 102 .needs_kbd_timeouts = 1, 103 .kbd_timeouts = { 0, 5, 15, 60, 5 * 60, 15 * 60, -1 }, 104}; 105 106static int da_command_address; 107static int da_command_code; 108static int da_num_tokens; 109static struct calling_interface_token *da_tokens; 110 111static struct platform_driver platform_driver = { 112 .driver = { 113 .name = "dell-laptop", 114 } 115}; 116 117static struct platform_device *platform_device; 118static struct backlight_device *dell_backlight_device; 119static struct rfkill *wifi_rfkill; 120static struct rfkill *bluetooth_rfkill; 121static struct rfkill *wwan_rfkill; 122static bool force_rfkill; 123 124module_param(force_rfkill, bool, 0444); 125MODULE_PARM_DESC(force_rfkill, "enable rfkill on non whitelisted models"); 126 127static const struct dmi_system_id dell_device_table[] __initconst = { 128 { 129 .ident = "Dell laptop", 130 .matches = { 131 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 132 DMI_MATCH(DMI_CHASSIS_TYPE, "8"), 133 }, 134 }, 135 { 136 .matches = { 137 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 138 DMI_MATCH(DMI_CHASSIS_TYPE, "9"), /*Laptop*/ 139 }, 140 }, 141 { 142 .ident = "Dell Computer Corporation", 143 .matches = { 144 DMI_MATCH(DMI_SYS_VENDOR, "Dell Computer Corporation"), 145 DMI_MATCH(DMI_CHASSIS_TYPE, "8"), 146 }, 147 }, 148 { } 149}; 150MODULE_DEVICE_TABLE(dmi, dell_device_table); 151 152static const struct dmi_system_id dell_quirks[] __initconst = { 153 { 154 .callback = dmi_matched, 155 .ident = "Dell Vostro V130", 156 .matches = { 157 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 158 DMI_MATCH(DMI_PRODUCT_NAME, "Vostro V130"), 159 }, 160 .driver_data = &quirk_dell_vostro_v130, 161 }, 162 { 163 .callback = dmi_matched, 164 .ident = "Dell Vostro V131", 165 .matches = { 166 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 167 DMI_MATCH(DMI_PRODUCT_NAME, "Vostro V131"), 168 }, 169 .driver_data = &quirk_dell_vostro_v130, 170 }, 171 { 172 .callback = dmi_matched, 173 .ident = "Dell Vostro 3350", 174 .matches = { 175 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 176 DMI_MATCH(DMI_PRODUCT_NAME, "Vostro 3350"), 177 }, 178 .driver_data = &quirk_dell_vostro_v130, 179 }, 180 { 181 .callback = dmi_matched, 182 .ident = "Dell Vostro 3555", 183 .matches = { 184 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 185 DMI_MATCH(DMI_PRODUCT_NAME, "Vostro 3555"), 186 }, 187 .driver_data = &quirk_dell_vostro_v130, 188 }, 189 { 190 .callback = dmi_matched, 191 .ident = "Dell Inspiron N311z", 192 .matches = { 193 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 194 DMI_MATCH(DMI_PRODUCT_NAME, "Inspiron N311z"), 195 }, 196 .driver_data = &quirk_dell_vostro_v130, 197 }, 198 { 199 .callback = dmi_matched, 200 .ident = "Dell Inspiron M5110", 201 .matches = { 202 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 203 DMI_MATCH(DMI_PRODUCT_NAME, "Inspiron M5110"), 204 }, 205 .driver_data = &quirk_dell_vostro_v130, 206 }, 207 { 208 .callback = dmi_matched, 209 .ident = "Dell Vostro 3360", 210 .matches = { 211 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 212 DMI_MATCH(DMI_PRODUCT_NAME, "Vostro 3360"), 213 }, 214 .driver_data = &quirk_dell_vostro_v130, 215 }, 216 { 217 .callback = dmi_matched, 218 .ident = "Dell Vostro 3460", 219 .matches = { 220 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 221 DMI_MATCH(DMI_PRODUCT_NAME, "Vostro 3460"), 222 }, 223 .driver_data = &quirk_dell_vostro_v130, 224 }, 225 { 226 .callback = dmi_matched, 227 .ident = "Dell Vostro 3560", 228 .matches = { 229 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 230 DMI_MATCH(DMI_PRODUCT_NAME, "Vostro 3560"), 231 }, 232 .driver_data = &quirk_dell_vostro_v130, 233 }, 234 { 235 .callback = dmi_matched, 236 .ident = "Dell Vostro 3450", 237 .matches = { 238 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 239 DMI_MATCH(DMI_PRODUCT_NAME, "Dell System Vostro 3450"), 240 }, 241 .driver_data = &quirk_dell_vostro_v130, 242 }, 243 { 244 .callback = dmi_matched, 245 .ident = "Dell Inspiron 5420", 246 .matches = { 247 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 248 DMI_MATCH(DMI_PRODUCT_NAME, "Inspiron 5420"), 249 }, 250 .driver_data = &quirk_dell_vostro_v130, 251 }, 252 { 253 .callback = dmi_matched, 254 .ident = "Dell Inspiron 5520", 255 .matches = { 256 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 257 DMI_MATCH(DMI_PRODUCT_NAME, "Inspiron 5520"), 258 }, 259 .driver_data = &quirk_dell_vostro_v130, 260 }, 261 { 262 .callback = dmi_matched, 263 .ident = "Dell Inspiron 5720", 264 .matches = { 265 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 266 DMI_MATCH(DMI_PRODUCT_NAME, "Inspiron 5720"), 267 }, 268 .driver_data = &quirk_dell_vostro_v130, 269 }, 270 { 271 .callback = dmi_matched, 272 .ident = "Dell Inspiron 7420", 273 .matches = { 274 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 275 DMI_MATCH(DMI_PRODUCT_NAME, "Inspiron 7420"), 276 }, 277 .driver_data = &quirk_dell_vostro_v130, 278 }, 279 { 280 .callback = dmi_matched, 281 .ident = "Dell Inspiron 7520", 282 .matches = { 283 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 284 DMI_MATCH(DMI_PRODUCT_NAME, "Inspiron 7520"), 285 }, 286 .driver_data = &quirk_dell_vostro_v130, 287 }, 288 { 289 .callback = dmi_matched, 290 .ident = "Dell Inspiron 7720", 291 .matches = { 292 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 293 DMI_MATCH(DMI_PRODUCT_NAME, "Inspiron 7720"), 294 }, 295 .driver_data = &quirk_dell_vostro_v130, 296 }, 297 { 298 .callback = dmi_matched, 299 .ident = "Dell XPS13 9333", 300 .matches = { 301 DMI_MATCH(DMI_SYS_VENDOR, "Dell Inc."), 302 DMI_MATCH(DMI_PRODUCT_NAME, "XPS13 9333"), 303 }, 304 .driver_data = &quirk_dell_xps13_9333, 305 }, 306 { } 307}; 308 309static struct calling_interface_buffer *buffer; 310static DEFINE_MUTEX(buffer_mutex); 311 312static void clear_buffer(void) 313{ 314 memset(buffer, 0, sizeof(struct calling_interface_buffer)); 315} 316 317static void get_buffer(void) 318{ 319 mutex_lock(&buffer_mutex); 320 clear_buffer(); 321} 322 323static void release_buffer(void) 324{ 325 mutex_unlock(&buffer_mutex); 326} 327 328static void __init parse_da_table(const struct dmi_header *dm) 329{ 330 /* Final token is a terminator, so we don't want to copy it */ 331 int tokens = (dm->length-11)/sizeof(struct calling_interface_token)-1; 332 struct calling_interface_token *new_da_tokens; 333 struct calling_interface_structure *table = 334 container_of(dm, struct calling_interface_structure, header); 335 336 /* 4 bytes of table header, plus 7 bytes of Dell header, plus at least 337 6 bytes of entry */ 338 339 if (dm->length < 17) 340 return; 341 342 da_command_address = table->cmdIOAddress; 343 da_command_code = table->cmdIOCode; 344 345 new_da_tokens = krealloc(da_tokens, (da_num_tokens + tokens) * 346 sizeof(struct calling_interface_token), 347 GFP_KERNEL); 348 349 if (!new_da_tokens) 350 return; 351 da_tokens = new_da_tokens; 352 353 memcpy(da_tokens+da_num_tokens, table->tokens, 354 sizeof(struct calling_interface_token) * tokens); 355 356 da_num_tokens += tokens; 357} 358 359static void __init find_tokens(const struct dmi_header *dm, void *dummy) 360{ 361 switch (dm->type) { 362 case 0xd4: /* Indexed IO */ 363 case 0xd5: /* Protected Area Type 1 */ 364 case 0xd6: /* Protected Area Type 2 */ 365 break; 366 case 0xda: /* Calling interface */ 367 parse_da_table(dm); 368 break; 369 } 370} 371 372static int find_token_id(int tokenid) 373{ 374 int i; 375 376 for (i = 0; i < da_num_tokens; i++) { 377 if (da_tokens[i].tokenID == tokenid) 378 return i; 379 } 380 381 return -1; 382} 383 384static int find_token_location(int tokenid) 385{ 386 int id; 387 388 id = find_token_id(tokenid); 389 if (id == -1) 390 return -1; 391 392 return da_tokens[id].location; 393} 394 395static struct calling_interface_buffer * 396dell_send_request(struct calling_interface_buffer *buffer, int class, 397 int select) 398{ 399 struct smi_cmd command; 400 401 command.magic = SMI_CMD_MAGIC; 402 command.command_address = da_command_address; 403 command.command_code = da_command_code; 404 command.ebx = virt_to_phys(buffer); 405 command.ecx = 0x42534931; 406 407 buffer->class = class; 408 buffer->select = select; 409 410 dcdbas_smi_request(&command); 411 412 return buffer; 413} 414 415static inline int dell_smi_error(int value) 416{ 417 switch (value) { 418 case 0: /* Completed successfully */ 419 return 0; 420 case -1: /* Completed with error */ 421 return -EIO; 422 case -2: /* Function not supported */ 423 return -ENXIO; 424 default: /* Unknown error */ 425 return -EINVAL; 426 } 427} 428 429/* 430 * Derived from information in smbios-wireless-ctl: 431 * 432 * cbSelect 17, Value 11 433 * 434 * Return Wireless Info 435 * cbArg1, byte0 = 0x00 436 * 437 * cbRes1 Standard return codes (0, -1, -2) 438 * cbRes2 Info bit flags: 439 * 440 * 0 Hardware switch supported (1) 441 * 1 WiFi locator supported (1) 442 * 2 WLAN supported (1) 443 * 3 Bluetooth (BT) supported (1) 444 * 4 WWAN supported (1) 445 * 5 Wireless KBD supported (1) 446 * 6 Uw b supported (1) 447 * 7 WiGig supported (1) 448 * 8 WLAN installed (1) 449 * 9 BT installed (1) 450 * 10 WWAN installed (1) 451 * 11 Uw b installed (1) 452 * 12 WiGig installed (1) 453 * 13-15 Reserved (0) 454 * 16 Hardware (HW) switch is On (1) 455 * 17 WLAN disabled (1) 456 * 18 BT disabled (1) 457 * 19 WWAN disabled (1) 458 * 20 Uw b disabled (1) 459 * 21 WiGig disabled (1) 460 * 20-31 Reserved (0) 461 * 462 * cbRes3 NVRAM size in bytes 463 * cbRes4, byte 0 NVRAM format version number 464 * 465 * 466 * Set QuickSet Radio Disable Flag 467 * cbArg1, byte0 = 0x01 468 * cbArg1, byte1 469 * Radio ID value: 470 * 0 Radio Status 471 * 1 WLAN ID 472 * 2 BT ID 473 * 3 WWAN ID 474 * 4 UWB ID 475 * 5 WIGIG ID 476 * cbArg1, byte2 Flag bits: 477 * 0 QuickSet disables radio (1) 478 * 1-7 Reserved (0) 479 * 480 * cbRes1 Standard return codes (0, -1, -2) 481 * cbRes2 QuickSet (QS) radio disable bit map: 482 * 0 QS disables WLAN 483 * 1 QS disables BT 484 * 2 QS disables WWAN 485 * 3 QS disables UWB 486 * 4 QS disables WIGIG 487 * 5-31 Reserved (0) 488 * 489 * Wireless Switch Configuration 490 * cbArg1, byte0 = 0x02 491 * 492 * cbArg1, byte1 493 * Subcommand: 494 * 0 Get config 495 * 1 Set config 496 * 2 Set WiFi locator enable/disable 497 * cbArg1,byte2 498 * Switch settings (if byte 1==1): 499 * 0 WLAN sw itch control (1) 500 * 1 BT sw itch control (1) 501 * 2 WWAN sw itch control (1) 502 * 3 UWB sw itch control (1) 503 * 4 WiGig sw itch control (1) 504 * 5-7 Reserved (0) 505 * cbArg1, byte2 Enable bits (if byte 1==2): 506 * 0 Enable WiFi locator (1) 507 * 508 * cbRes1 Standard return codes (0, -1, -2) 509 * cbRes2 QuickSet radio disable bit map: 510 * 0 WLAN controlled by sw itch (1) 511 * 1 BT controlled by sw itch (1) 512 * 2 WWAN controlled by sw itch (1) 513 * 3 UWB controlled by sw itch (1) 514 * 4 WiGig controlled by sw itch (1) 515 * 5-6 Reserved (0) 516 * 7 Wireless sw itch config locked (1) 517 * 8 WiFi locator enabled (1) 518 * 9-14 Reserved (0) 519 * 15 WiFi locator setting locked (1) 520 * 16-31 Reserved (0) 521 * 522 * Read Local Config Data (LCD) 523 * cbArg1, byte0 = 0x10 524 * cbArg1, byte1 NVRAM index low byte 525 * cbArg1, byte2 NVRAM index high byte 526 * cbRes1 Standard return codes (0, -1, -2) 527 * cbRes2 4 bytes read from LCD[index] 528 * cbRes3 4 bytes read from LCD[index+4] 529 * cbRes4 4 bytes read from LCD[index+8] 530 * 531 * Write Local Config Data (LCD) 532 * cbArg1, byte0 = 0x11 533 * cbArg1, byte1 NVRAM index low byte 534 * cbArg1, byte2 NVRAM index high byte 535 * cbArg2 4 bytes to w rite at LCD[index] 536 * cbArg3 4 bytes to w rite at LCD[index+4] 537 * cbArg4 4 bytes to w rite at LCD[index+8] 538 * cbRes1 Standard return codes (0, -1, -2) 539 * 540 * Populate Local Config Data from NVRAM 541 * cbArg1, byte0 = 0x12 542 * cbRes1 Standard return codes (0, -1, -2) 543 * 544 * Commit Local Config Data to NVRAM 545 * cbArg1, byte0 = 0x13 546 * cbRes1 Standard return codes (0, -1, -2) 547 */ 548 549static int dell_rfkill_set(void *data, bool blocked) 550{ 551 int disable = blocked ? 1 : 0; 552 unsigned long radio = (unsigned long)data; 553 int hwswitch_bit = (unsigned long)data - 1; 554 int hwswitch; 555 int status; 556 int ret; 557 558 get_buffer(); 559 560 dell_send_request(buffer, 17, 11); 561 ret = buffer->output[0]; 562 status = buffer->output[1]; 563 564 if (ret != 0) 565 goto out; 566 567 clear_buffer(); 568 569 buffer->input[0] = 0x2; 570 dell_send_request(buffer, 17, 11); 571 ret = buffer->output[0]; 572 hwswitch = buffer->output[1]; 573 574 /* If the hardware switch controls this radio, and the hardware 575 switch is disabled, always disable the radio */ 576 if (ret == 0 && (hwswitch & BIT(hwswitch_bit)) && 577 (status & BIT(0)) && !(status & BIT(16))) 578 disable = 1; 579 580 clear_buffer(); 581 582 buffer->input[0] = (1 | (radio<<8) | (disable << 16)); 583 dell_send_request(buffer, 17, 11); 584 ret = buffer->output[0]; 585 586 out: 587 release_buffer(); 588 return dell_smi_error(ret); 589} 590 591/* Must be called with the buffer held */ 592static void dell_rfkill_update_sw_state(struct rfkill *rfkill, int radio, 593 int status) 594{ 595 if (status & BIT(0)) { 596 /* Has hw-switch, sync sw_state to BIOS */ 597 int block = rfkill_blocked(rfkill); 598 clear_buffer(); 599 buffer->input[0] = (1 | (radio << 8) | (block << 16)); 600 dell_send_request(buffer, 17, 11); 601 } else { 602 /* No hw-switch, sync BIOS state to sw_state */ 603 rfkill_set_sw_state(rfkill, !!(status & BIT(radio + 16))); 604 } 605} 606 607static void dell_rfkill_update_hw_state(struct rfkill *rfkill, int radio, 608 int status, int hwswitch) 609{ 610 if (hwswitch & (BIT(radio - 1))) 611 rfkill_set_hw_state(rfkill, !(status & BIT(16))); 612} 613 614static void dell_rfkill_query(struct rfkill *rfkill, void *data) 615{ 616 int radio = ((unsigned long)data & 0xF); 617 int hwswitch; 618 int status; 619 int ret; 620 621 get_buffer(); 622 623 dell_send_request(buffer, 17, 11); 624 ret = buffer->output[0]; 625 status = buffer->output[1]; 626 627 if (ret != 0 || !(status & BIT(0))) { 628 release_buffer(); 629 return; 630 } 631 632 clear_buffer(); 633 634 buffer->input[0] = 0x2; 635 dell_send_request(buffer, 17, 11); 636 ret = buffer->output[0]; 637 hwswitch = buffer->output[1]; 638 639 release_buffer(); 640 641 if (ret != 0) 642 return; 643 644 dell_rfkill_update_hw_state(rfkill, radio, status, hwswitch); 645} 646 647static const struct rfkill_ops dell_rfkill_ops = { 648 .set_block = dell_rfkill_set, 649 .query = dell_rfkill_query, 650}; 651 652static struct dentry *dell_laptop_dir; 653 654static int dell_debugfs_show(struct seq_file *s, void *data) 655{ 656 int hwswitch_state; 657 int hwswitch_ret; 658 int status; 659 int ret; 660 661 get_buffer(); 662 663 dell_send_request(buffer, 17, 11); 664 ret = buffer->output[0]; 665 status = buffer->output[1]; 666 667 clear_buffer(); 668 669 buffer->input[0] = 0x2; 670 dell_send_request(buffer, 17, 11); 671 hwswitch_ret = buffer->output[0]; 672 hwswitch_state = buffer->output[1]; 673 674 release_buffer(); 675 676 seq_printf(s, "return:\t%d\n", ret); 677 seq_printf(s, "status:\t0x%X\n", status); 678 seq_printf(s, "Bit 0 : Hardware switch supported: %lu\n", 679 status & BIT(0)); 680 seq_printf(s, "Bit 1 : Wifi locator supported: %lu\n", 681 (status & BIT(1)) >> 1); 682 seq_printf(s, "Bit 2 : Wifi is supported: %lu\n", 683 (status & BIT(2)) >> 2); 684 seq_printf(s, "Bit 3 : Bluetooth is supported: %lu\n", 685 (status & BIT(3)) >> 3); 686 seq_printf(s, "Bit 4 : WWAN is supported: %lu\n", 687 (status & BIT(4)) >> 4); 688 seq_printf(s, "Bit 5 : Wireless keyboard supported: %lu\n", 689 (status & BIT(5)) >> 5); 690 seq_printf(s, "Bit 6 : UWB supported: %lu\n", 691 (status & BIT(6)) >> 6); 692 seq_printf(s, "Bit 7 : WiGig supported: %lu\n", 693 (status & BIT(7)) >> 7); 694 seq_printf(s, "Bit 8 : Wifi is installed: %lu\n", 695 (status & BIT(8)) >> 8); 696 seq_printf(s, "Bit 9 : Bluetooth is installed: %lu\n", 697 (status & BIT(9)) >> 9); 698 seq_printf(s, "Bit 10: WWAN is installed: %lu\n", 699 (status & BIT(10)) >> 10); 700 seq_printf(s, "Bit 11: UWB installed: %lu\n", 701 (status & BIT(11)) >> 11); 702 seq_printf(s, "Bit 12: WiGig installed: %lu\n", 703 (status & BIT(12)) >> 12); 704 705 seq_printf(s, "Bit 16: Hardware switch is on: %lu\n", 706 (status & BIT(16)) >> 16); 707 seq_printf(s, "Bit 17: Wifi is blocked: %lu\n", 708 (status & BIT(17)) >> 17); 709 seq_printf(s, "Bit 18: Bluetooth is blocked: %lu\n", 710 (status & BIT(18)) >> 18); 711 seq_printf(s, "Bit 19: WWAN is blocked: %lu\n", 712 (status & BIT(19)) >> 19); 713 seq_printf(s, "Bit 20: UWB is blocked: %lu\n", 714 (status & BIT(20)) >> 20); 715 seq_printf(s, "Bit 21: WiGig is blocked: %lu\n", 716 (status & BIT(21)) >> 21); 717 718 seq_printf(s, "\nhwswitch_return:\t%d\n", hwswitch_ret); 719 seq_printf(s, "hwswitch_state:\t0x%X\n", hwswitch_state); 720 seq_printf(s, "Bit 0 : Wifi controlled by switch: %lu\n", 721 hwswitch_state & BIT(0)); 722 seq_printf(s, "Bit 1 : Bluetooth controlled by switch: %lu\n", 723 (hwswitch_state & BIT(1)) >> 1); 724 seq_printf(s, "Bit 2 : WWAN controlled by switch: %lu\n", 725 (hwswitch_state & BIT(2)) >> 2); 726 seq_printf(s, "Bit 3 : UWB controlled by switch: %lu\n", 727 (hwswitch_state & BIT(3)) >> 3); 728 seq_printf(s, "Bit 4 : WiGig controlled by switch: %lu\n", 729 (hwswitch_state & BIT(4)) >> 4); 730 seq_printf(s, "Bit 7 : Wireless switch config locked: %lu\n", 731 (hwswitch_state & BIT(7)) >> 7); 732 seq_printf(s, "Bit 8 : Wifi locator enabled: %lu\n", 733 (hwswitch_state & BIT(8)) >> 8); 734 seq_printf(s, "Bit 15: Wifi locator setting locked: %lu\n", 735 (hwswitch_state & BIT(15)) >> 15); 736 737 return 0; 738} 739 740static int dell_debugfs_open(struct inode *inode, struct file *file) 741{ 742 return single_open(file, dell_debugfs_show, inode->i_private); 743} 744 745static const struct file_operations dell_debugfs_fops = { 746 .owner = THIS_MODULE, 747 .open = dell_debugfs_open, 748 .read = seq_read, 749 .llseek = seq_lseek, 750 .release = single_release, 751}; 752 753static void dell_update_rfkill(struct work_struct *ignored) 754{ 755 int hwswitch = 0; 756 int status; 757 int ret; 758 759 get_buffer(); 760 761 dell_send_request(buffer, 17, 11); 762 ret = buffer->output[0]; 763 status = buffer->output[1]; 764 765 if (ret != 0) 766 goto out; 767 768 clear_buffer(); 769 770 buffer->input[0] = 0x2; 771 dell_send_request(buffer, 17, 11); 772 ret = buffer->output[0]; 773 774 if (ret == 0 && (status & BIT(0))) 775 hwswitch = buffer->output[1]; 776 777 if (wifi_rfkill) { 778 dell_rfkill_update_hw_state(wifi_rfkill, 1, status, hwswitch); 779 dell_rfkill_update_sw_state(wifi_rfkill, 1, status); 780 } 781 if (bluetooth_rfkill) { 782 dell_rfkill_update_hw_state(bluetooth_rfkill, 2, status, 783 hwswitch); 784 dell_rfkill_update_sw_state(bluetooth_rfkill, 2, status); 785 } 786 if (wwan_rfkill) { 787 dell_rfkill_update_hw_state(wwan_rfkill, 3, status, hwswitch); 788 dell_rfkill_update_sw_state(wwan_rfkill, 3, status); 789 } 790 791 out: 792 release_buffer(); 793} 794static DECLARE_DELAYED_WORK(dell_rfkill_work, dell_update_rfkill); 795 796static bool dell_laptop_i8042_filter(unsigned char data, unsigned char str, 797 struct serio *port) 798{ 799 static bool extended; 800 801 if (str & I8042_STR_AUXDATA) 802 return false; 803 804 if (unlikely(data == 0xe0)) { 805 extended = true; 806 return false; 807 } else if (unlikely(extended)) { 808 switch (data) { 809 case 0x8: 810 schedule_delayed_work(&dell_rfkill_work, 811 round_jiffies_relative(HZ / 4)); 812 break; 813 } 814 extended = false; 815 } 816 817 return false; 818} 819 820static int (*dell_rbtn_notifier_register_func)(struct notifier_block *); 821static int (*dell_rbtn_notifier_unregister_func)(struct notifier_block *); 822 823static int dell_laptop_rbtn_notifier_call(struct notifier_block *nb, 824 unsigned long action, void *data) 825{ 826 schedule_delayed_work(&dell_rfkill_work, 0); 827 return NOTIFY_OK; 828} 829 830static struct notifier_block dell_laptop_rbtn_notifier = { 831 .notifier_call = dell_laptop_rbtn_notifier_call, 832}; 833 834static int __init dell_setup_rfkill(void) 835{ 836 int status, ret, whitelisted; 837 const char *product; 838 839 /* 840 * rfkill support causes trouble on various models, mostly Inspirons. 841 * So we whitelist certain series, and don't support rfkill on others. 842 */ 843 whitelisted = 0; 844 product = dmi_get_system_info(DMI_PRODUCT_NAME); 845 if (product && (strncmp(product, "Latitude", 8) == 0 || 846 strncmp(product, "Precision", 9) == 0)) 847 whitelisted = 1; 848 if (!force_rfkill && !whitelisted) 849 return 0; 850 851 get_buffer(); 852 dell_send_request(buffer, 17, 11); 853 ret = buffer->output[0]; 854 status = buffer->output[1]; 855 release_buffer(); 856 857 /* dell wireless info smbios call is not supported */ 858 if (ret != 0) 859 return 0; 860 861 /* rfkill is only tested on laptops with a hwswitch */ 862 if (!(status & BIT(0)) && !force_rfkill) 863 return 0; 864 865 if ((status & (1<<2|1<<8)) == (1<<2|1<<8)) { 866 wifi_rfkill = rfkill_alloc("dell-wifi", &platform_device->dev, 867 RFKILL_TYPE_WLAN, 868 &dell_rfkill_ops, (void *) 1); 869 if (!wifi_rfkill) { 870 ret = -ENOMEM; 871 goto err_wifi; 872 } 873 ret = rfkill_register(wifi_rfkill); 874 if (ret) 875 goto err_wifi; 876 } 877 878 if ((status & (1<<3|1<<9)) == (1<<3|1<<9)) { 879 bluetooth_rfkill = rfkill_alloc("dell-bluetooth", 880 &platform_device->dev, 881 RFKILL_TYPE_BLUETOOTH, 882 &dell_rfkill_ops, (void *) 2); 883 if (!bluetooth_rfkill) { 884 ret = -ENOMEM; 885 goto err_bluetooth; 886 } 887 ret = rfkill_register(bluetooth_rfkill); 888 if (ret) 889 goto err_bluetooth; 890 } 891 892 if ((status & (1<<4|1<<10)) == (1<<4|1<<10)) { 893 wwan_rfkill = rfkill_alloc("dell-wwan", 894 &platform_device->dev, 895 RFKILL_TYPE_WWAN, 896 &dell_rfkill_ops, (void *) 3); 897 if (!wwan_rfkill) { 898 ret = -ENOMEM; 899 goto err_wwan; 900 } 901 ret = rfkill_register(wwan_rfkill); 902 if (ret) 903 goto err_wwan; 904 } 905 906 /* 907 * Dell Airplane Mode Switch driver (dell-rbtn) supports ACPI devices 908 * which can receive events from HW slider switch. 909 * 910 * Dell SMBIOS on whitelisted models supports controlling radio devices 911 * but does not support receiving HW button switch events. We can use 912 * i8042 filter hook function to receive keyboard data and handle 913 * keycode for HW button. 914 * 915 * So if it is possible we will use Dell Airplane Mode Switch ACPI 916 * driver for receiving HW events and Dell SMBIOS for setting rfkill 917 * states. If ACPI driver or device is not available we will fallback to 918 * i8042 filter hook function. 919 * 920 * To prevent duplicate rfkill devices which control and do same thing, 921 * dell-rbtn driver will automatically remove its own rfkill devices 922 * once function dell_rbtn_notifier_register() is called. 923 */ 924 925 dell_rbtn_notifier_register_func = 926 symbol_request(dell_rbtn_notifier_register); 927 if (dell_rbtn_notifier_register_func) { 928 dell_rbtn_notifier_unregister_func = 929 symbol_request(dell_rbtn_notifier_unregister); 930 if (!dell_rbtn_notifier_unregister_func) { 931 symbol_put(dell_rbtn_notifier_register); 932 dell_rbtn_notifier_register_func = NULL; 933 } 934 } 935 936 if (dell_rbtn_notifier_register_func) { 937 ret = dell_rbtn_notifier_register_func( 938 &dell_laptop_rbtn_notifier); 939 symbol_put(dell_rbtn_notifier_register); 940 dell_rbtn_notifier_register_func = NULL; 941 if (ret != 0) { 942 symbol_put(dell_rbtn_notifier_unregister); 943 dell_rbtn_notifier_unregister_func = NULL; 944 } 945 } else { 946 pr_info("Symbols from dell-rbtn acpi driver are not available\n"); 947 ret = -ENODEV; 948 } 949 950 if (ret == 0) { 951 pr_info("Using dell-rbtn acpi driver for receiving events\n"); 952 } else if (ret != -ENODEV) { 953 pr_warn("Unable to register dell rbtn notifier\n"); 954 goto err_filter; 955 } else { 956 ret = i8042_install_filter(dell_laptop_i8042_filter); 957 if (ret) { 958 pr_warn("Unable to install key filter\n"); 959 goto err_filter; 960 } 961 pr_info("Using i8042 filter function for receiving events\n"); 962 } 963 964 return 0; 965err_filter: 966 if (wwan_rfkill) 967 rfkill_unregister(wwan_rfkill); 968err_wwan: 969 rfkill_destroy(wwan_rfkill); 970 if (bluetooth_rfkill) 971 rfkill_unregister(bluetooth_rfkill); 972err_bluetooth: 973 rfkill_destroy(bluetooth_rfkill); 974 if (wifi_rfkill) 975 rfkill_unregister(wifi_rfkill); 976err_wifi: 977 rfkill_destroy(wifi_rfkill); 978 979 return ret; 980} 981 982static void dell_cleanup_rfkill(void) 983{ 984 if (dell_rbtn_notifier_unregister_func) { 985 dell_rbtn_notifier_unregister_func(&dell_laptop_rbtn_notifier); 986 symbol_put(dell_rbtn_notifier_unregister); 987 dell_rbtn_notifier_unregister_func = NULL; 988 } else { 989 i8042_remove_filter(dell_laptop_i8042_filter); 990 } 991 cancel_delayed_work_sync(&dell_rfkill_work); 992 if (wifi_rfkill) { 993 rfkill_unregister(wifi_rfkill); 994 rfkill_destroy(wifi_rfkill); 995 } 996 if (bluetooth_rfkill) { 997 rfkill_unregister(bluetooth_rfkill); 998 rfkill_destroy(bluetooth_rfkill); 999 } 1000 if (wwan_rfkill) { 1001 rfkill_unregister(wwan_rfkill); 1002 rfkill_destroy(wwan_rfkill); 1003 } 1004} 1005 1006static int dell_send_intensity(struct backlight_device *bd) 1007{ 1008 int token; 1009 int ret; 1010 1011 token = find_token_location(BRIGHTNESS_TOKEN); 1012 if (token == -1) 1013 return -ENODEV; 1014 1015 get_buffer(); 1016 buffer->input[0] = token; 1017 buffer->input[1] = bd->props.brightness; 1018 1019 if (power_supply_is_system_supplied() > 0) 1020 dell_send_request(buffer, 1, 2); 1021 else 1022 dell_send_request(buffer, 1, 1); 1023 1024 ret = dell_smi_error(buffer->output[0]); 1025 1026 release_buffer(); 1027 return ret; 1028} 1029 1030static int dell_get_intensity(struct backlight_device *bd) 1031{ 1032 int token; 1033 int ret; 1034 1035 token = find_token_location(BRIGHTNESS_TOKEN); 1036 if (token == -1) 1037 return -ENODEV; 1038 1039 get_buffer(); 1040 buffer->input[0] = token; 1041 1042 if (power_supply_is_system_supplied() > 0) 1043 dell_send_request(buffer, 0, 2); 1044 else 1045 dell_send_request(buffer, 0, 1); 1046 1047 if (buffer->output[0]) 1048 ret = dell_smi_error(buffer->output[0]); 1049 else 1050 ret = buffer->output[1]; 1051 1052 release_buffer(); 1053 return ret; 1054} 1055 1056static const struct backlight_ops dell_ops = { 1057 .get_brightness = dell_get_intensity, 1058 .update_status = dell_send_intensity, 1059}; 1060 1061static void touchpad_led_on(void) 1062{ 1063 int command = 0x97; 1064 char data = 1; 1065 i8042_command(&data, command | 1 << 12); 1066} 1067 1068static void touchpad_led_off(void) 1069{ 1070 int command = 0x97; 1071 char data = 2; 1072 i8042_command(&data, command | 1 << 12); 1073} 1074 1075static void touchpad_led_set(struct led_classdev *led_cdev, 1076 enum led_brightness value) 1077{ 1078 if (value > 0) 1079 touchpad_led_on(); 1080 else 1081 touchpad_led_off(); 1082} 1083 1084static struct led_classdev touchpad_led = { 1085 .name = "dell-laptop::touchpad", 1086 .brightness_set = touchpad_led_set, 1087 .flags = LED_CORE_SUSPENDRESUME, 1088}; 1089 1090static int __init touchpad_led_init(struct device *dev) 1091{ 1092 return led_classdev_register(dev, &touchpad_led); 1093} 1094 1095static void touchpad_led_exit(void) 1096{ 1097 led_classdev_unregister(&touchpad_led); 1098} 1099 1100/* 1101 * Derived from information in smbios-keyboard-ctl: 1102 * 1103 * cbClass 4 1104 * cbSelect 11 1105 * Keyboard illumination 1106 * cbArg1 determines the function to be performed 1107 * 1108 * cbArg1 0x0 = Get Feature Information 1109 * cbRES1 Standard return codes (0, -1, -2) 1110 * cbRES2, word0 Bitmap of user-selectable modes 1111 * bit 0 Always off (All systems) 1112 * bit 1 Always on (Travis ATG, Siberia) 1113 * bit 2 Auto: ALS-based On; ALS-based Off (Travis ATG) 1114 * bit 3 Auto: ALS- and input-activity-based On; input-activity based Off 1115 * bit 4 Auto: Input-activity-based On; input-activity based Off 1116 * bit 5 Auto: Input-activity-based On (illumination level 25%); input-activity based Off 1117 * bit 6 Auto: Input-activity-based On (illumination level 50%); input-activity based Off 1118 * bit 7 Auto: Input-activity-based On (illumination level 75%); input-activity based Off 1119 * bit 8 Auto: Input-activity-based On (illumination level 100%); input-activity based Off 1120 * bits 9-15 Reserved for future use 1121 * cbRES2, byte2 Reserved for future use 1122 * cbRES2, byte3 Keyboard illumination type 1123 * 0 Reserved 1124 * 1 Tasklight 1125 * 2 Backlight 1126 * 3-255 Reserved for future use 1127 * cbRES3, byte0 Supported auto keyboard illumination trigger bitmap. 1128 * bit 0 Any keystroke 1129 * bit 1 Touchpad activity 1130 * bit 2 Pointing stick 1131 * bit 3 Any mouse 1132 * bits 4-7 Reserved for future use 1133 * cbRES3, byte1 Supported timeout unit bitmap 1134 * bit 0 Seconds 1135 * bit 1 Minutes 1136 * bit 2 Hours 1137 * bit 3 Days 1138 * bits 4-7 Reserved for future use 1139 * cbRES3, byte2 Number of keyboard light brightness levels 1140 * cbRES4, byte0 Maximum acceptable seconds value (0 if seconds not supported). 1141 * cbRES4, byte1 Maximum acceptable minutes value (0 if minutes not supported). 1142 * cbRES4, byte2 Maximum acceptable hours value (0 if hours not supported). 1143 * cbRES4, byte3 Maximum acceptable days value (0 if days not supported) 1144 * 1145 * cbArg1 0x1 = Get Current State 1146 * cbRES1 Standard return codes (0, -1, -2) 1147 * cbRES2, word0 Bitmap of current mode state 1148 * bit 0 Always off (All systems) 1149 * bit 1 Always on (Travis ATG, Siberia) 1150 * bit 2 Auto: ALS-based On; ALS-based Off (Travis ATG) 1151 * bit 3 Auto: ALS- and input-activity-based On; input-activity based Off 1152 * bit 4 Auto: Input-activity-based On; input-activity based Off 1153 * bit 5 Auto: Input-activity-based On (illumination level 25%); input-activity based Off 1154 * bit 6 Auto: Input-activity-based On (illumination level 50%); input-activity based Off 1155 * bit 7 Auto: Input-activity-based On (illumination level 75%); input-activity based Off 1156 * bit 8 Auto: Input-activity-based On (illumination level 100%); input-activity based Off 1157 * bits 9-15 Reserved for future use 1158 * Note: Only One bit can be set 1159 * cbRES2, byte2 Currently active auto keyboard illumination triggers. 1160 * bit 0 Any keystroke 1161 * bit 1 Touchpad activity 1162 * bit 2 Pointing stick 1163 * bit 3 Any mouse 1164 * bits 4-7 Reserved for future use 1165 * cbRES2, byte3 Current Timeout 1166 * bits 7:6 Timeout units indicator: 1167 * 00b Seconds 1168 * 01b Minutes 1169 * 10b Hours 1170 * 11b Days 1171 * bits 5:0 Timeout value (0-63) in sec/min/hr/day 1172 * NOTE: A value of 0 means always on (no timeout) if any bits of RES3 byte 1173 * are set upon return from the [Get feature information] call. 1174 * cbRES3, byte0 Current setting of ALS value that turns the light on or off. 1175 * cbRES3, byte1 Current ALS reading 1176 * cbRES3, byte2 Current keyboard light level. 1177 * 1178 * cbArg1 0x2 = Set New State 1179 * cbRES1 Standard return codes (0, -1, -2) 1180 * cbArg2, word0 Bitmap of current mode state 1181 * bit 0 Always off (All systems) 1182 * bit 1 Always on (Travis ATG, Siberia) 1183 * bit 2 Auto: ALS-based On; ALS-based Off (Travis ATG) 1184 * bit 3 Auto: ALS- and input-activity-based On; input-activity based Off 1185 * bit 4 Auto: Input-activity-based On; input-activity based Off 1186 * bit 5 Auto: Input-activity-based On (illumination level 25%); input-activity based Off 1187 * bit 6 Auto: Input-activity-based On (illumination level 50%); input-activity based Off 1188 * bit 7 Auto: Input-activity-based On (illumination level 75%); input-activity based Off 1189 * bit 8 Auto: Input-activity-based On (illumination level 100%); input-activity based Off 1190 * bits 9-15 Reserved for future use 1191 * Note: Only One bit can be set 1192 * cbArg2, byte2 Desired auto keyboard illumination triggers. Must remain inactive to allow 1193 * keyboard to turn off automatically. 1194 * bit 0 Any keystroke 1195 * bit 1 Touchpad activity 1196 * bit 2 Pointing stick 1197 * bit 3 Any mouse 1198 * bits 4-7 Reserved for future use 1199 * cbArg2, byte3 Desired Timeout 1200 * bits 7:6 Timeout units indicator: 1201 * 00b Seconds 1202 * 01b Minutes 1203 * 10b Hours 1204 * 11b Days 1205 * bits 5:0 Timeout value (0-63) in sec/min/hr/day 1206 * cbArg3, byte0 Desired setting of ALS value that turns the light on or off. 1207 * cbArg3, byte2 Desired keyboard light level. 1208 */ 1209 1210 1211enum kbd_timeout_unit { 1212 KBD_TIMEOUT_SECONDS = 0, 1213 KBD_TIMEOUT_MINUTES, 1214 KBD_TIMEOUT_HOURS, 1215 KBD_TIMEOUT_DAYS, 1216}; 1217 1218enum kbd_mode_bit { 1219 KBD_MODE_BIT_OFF = 0, 1220 KBD_MODE_BIT_ON, 1221 KBD_MODE_BIT_ALS, 1222 KBD_MODE_BIT_TRIGGER_ALS, 1223 KBD_MODE_BIT_TRIGGER, 1224 KBD_MODE_BIT_TRIGGER_25, 1225 KBD_MODE_BIT_TRIGGER_50, 1226 KBD_MODE_BIT_TRIGGER_75, 1227 KBD_MODE_BIT_TRIGGER_100, 1228}; 1229 1230#define kbd_is_als_mode_bit(bit) \ 1231 ((bit) == KBD_MODE_BIT_ALS || (bit) == KBD_MODE_BIT_TRIGGER_ALS) 1232#define kbd_is_trigger_mode_bit(bit) \ 1233 ((bit) >= KBD_MODE_BIT_TRIGGER_ALS && (bit) <= KBD_MODE_BIT_TRIGGER_100) 1234#define kbd_is_level_mode_bit(bit) \ 1235 ((bit) >= KBD_MODE_BIT_TRIGGER_25 && (bit) <= KBD_MODE_BIT_TRIGGER_100) 1236 1237struct kbd_info { 1238 u16 modes; 1239 u8 type; 1240 u8 triggers; 1241 u8 levels; 1242 u8 seconds; 1243 u8 minutes; 1244 u8 hours; 1245 u8 days; 1246}; 1247 1248struct kbd_state { 1249 u8 mode_bit; 1250 u8 triggers; 1251 u8 timeout_value; 1252 u8 timeout_unit; 1253 u8 als_setting; 1254 u8 als_value; 1255 u8 level; 1256}; 1257 1258static const int kbd_tokens[] = { 1259 KBD_LED_OFF_TOKEN, 1260 KBD_LED_AUTO_25_TOKEN, 1261 KBD_LED_AUTO_50_TOKEN, 1262 KBD_LED_AUTO_75_TOKEN, 1263 KBD_LED_AUTO_100_TOKEN, 1264 KBD_LED_ON_TOKEN, 1265}; 1266 1267static u16 kbd_token_bits; 1268 1269static struct kbd_info kbd_info; 1270static bool kbd_als_supported; 1271static bool kbd_triggers_supported; 1272 1273static u8 kbd_mode_levels[16]; 1274static int kbd_mode_levels_count; 1275 1276static u8 kbd_previous_level; 1277static u8 kbd_previous_mode_bit; 1278 1279static bool kbd_led_present; 1280 1281/* 1282 * NOTE: there are three ways to set the keyboard backlight level. 1283 * First, via kbd_state.mode_bit (assigning KBD_MODE_BIT_TRIGGER_* value). 1284 * Second, via kbd_state.level (assigning numerical value <= kbd_info.levels). 1285 * Third, via SMBIOS tokens (KBD_LED_* in kbd_tokens) 1286 * 1287 * There are laptops which support only one of these methods. If we want to 1288 * support as many machines as possible we need to implement all three methods. 1289 * The first two methods use the kbd_state structure. The third uses SMBIOS 1290 * tokens. If kbd_info.levels == 0, the machine does not support setting the 1291 * keyboard backlight level via kbd_state.level. 1292 */ 1293 1294static int kbd_get_info(struct kbd_info *info) 1295{ 1296 u8 units; 1297 int ret; 1298 1299 get_buffer(); 1300 1301 buffer->input[0] = 0x0; 1302 dell_send_request(buffer, 4, 11); 1303 ret = buffer->output[0]; 1304 1305 if (ret) { 1306 ret = dell_smi_error(ret); 1307 goto out; 1308 } 1309 1310 info->modes = buffer->output[1] & 0xFFFF; 1311 info->type = (buffer->output[1] >> 24) & 0xFF; 1312 info->triggers = buffer->output[2] & 0xFF; 1313 units = (buffer->output[2] >> 8) & 0xFF; 1314 info->levels = (buffer->output[2] >> 16) & 0xFF; 1315 1316 if (units & BIT(0)) 1317 info->seconds = (buffer->output[3] >> 0) & 0xFF; 1318 if (units & BIT(1)) 1319 info->minutes = (buffer->output[3] >> 8) & 0xFF; 1320 if (units & BIT(2)) 1321 info->hours = (buffer->output[3] >> 16) & 0xFF; 1322 if (units & BIT(3)) 1323 info->days = (buffer->output[3] >> 24) & 0xFF; 1324 1325 out: 1326 release_buffer(); 1327 return ret; 1328} 1329 1330static unsigned int kbd_get_max_level(void) 1331{ 1332 if (kbd_info.levels != 0) 1333 return kbd_info.levels; 1334 if (kbd_mode_levels_count > 0) 1335 return kbd_mode_levels_count - 1; 1336 return 0; 1337} 1338 1339static int kbd_get_level(struct kbd_state *state) 1340{ 1341 int i; 1342 1343 if (kbd_info.levels != 0) 1344 return state->level; 1345 1346 if (kbd_mode_levels_count > 0) { 1347 for (i = 0; i < kbd_mode_levels_count; ++i) 1348 if (kbd_mode_levels[i] == state->mode_bit) 1349 return i; 1350 return 0; 1351 } 1352 1353 return -EINVAL; 1354} 1355 1356static int kbd_set_level(struct kbd_state *state, u8 level) 1357{ 1358 if (kbd_info.levels != 0) { 1359 if (level != 0) 1360 kbd_previous_level = level; 1361 if (state->level == level) 1362 return 0; 1363 state->level = level; 1364 if (level != 0 && state->mode_bit == KBD_MODE_BIT_OFF) 1365 state->mode_bit = kbd_previous_mode_bit; 1366 else if (level == 0 && state->mode_bit != KBD_MODE_BIT_OFF) { 1367 kbd_previous_mode_bit = state->mode_bit; 1368 state->mode_bit = KBD_MODE_BIT_OFF; 1369 } 1370 return 0; 1371 } 1372 1373 if (kbd_mode_levels_count > 0 && level < kbd_mode_levels_count) { 1374 if (level != 0) 1375 kbd_previous_level = level; 1376 state->mode_bit = kbd_mode_levels[level]; 1377 return 0; 1378 } 1379 1380 return -EINVAL; 1381} 1382 1383static int kbd_get_state(struct kbd_state *state) 1384{ 1385 int ret; 1386 1387 get_buffer(); 1388 1389 buffer->input[0] = 0x1; 1390 dell_send_request(buffer, 4, 11); 1391 ret = buffer->output[0]; 1392 1393 if (ret) { 1394 ret = dell_smi_error(ret); 1395 goto out; 1396 } 1397 1398 state->mode_bit = ffs(buffer->output[1] & 0xFFFF); 1399 if (state->mode_bit != 0) 1400 state->mode_bit--; 1401 1402 state->triggers = (buffer->output[1] >> 16) & 0xFF; 1403 state->timeout_value = (buffer->output[1] >> 24) & 0x3F; 1404 state->timeout_unit = (buffer->output[1] >> 30) & 0x3; 1405 state->als_setting = buffer->output[2] & 0xFF; 1406 state->als_value = (buffer->output[2] >> 8) & 0xFF; 1407 state->level = (buffer->output[2] >> 16) & 0xFF; 1408 1409 out: 1410 release_buffer(); 1411 return ret; 1412} 1413 1414static int kbd_set_state(struct kbd_state *state) 1415{ 1416 int ret; 1417 1418 get_buffer(); 1419 buffer->input[0] = 0x2; 1420 buffer->input[1] = BIT(state->mode_bit) & 0xFFFF; 1421 buffer->input[1] |= (state->triggers & 0xFF) << 16; 1422 buffer->input[1] |= (state->timeout_value & 0x3F) << 24; 1423 buffer->input[1] |= (state->timeout_unit & 0x3) << 30; 1424 buffer->input[2] = state->als_setting & 0xFF; 1425 buffer->input[2] |= (state->level & 0xFF) << 16; 1426 dell_send_request(buffer, 4, 11); 1427 ret = buffer->output[0]; 1428 release_buffer(); 1429 1430 return dell_smi_error(ret); 1431} 1432 1433static int kbd_set_state_safe(struct kbd_state *state, struct kbd_state *old) 1434{ 1435 int ret; 1436 1437 ret = kbd_set_state(state); 1438 if (ret == 0) 1439 return 0; 1440 1441 /* 1442 * When setting the new state fails,try to restore the previous one. 1443 * This is needed on some machines where BIOS sets a default state when 1444 * setting a new state fails. This default state could be all off. 1445 */ 1446 1447 if (kbd_set_state(old)) 1448 pr_err("Setting old previous keyboard state failed\n"); 1449 1450 return ret; 1451} 1452 1453static int kbd_set_token_bit(u8 bit) 1454{ 1455 int id; 1456 int ret; 1457 1458 if (bit >= ARRAY_SIZE(kbd_tokens)) 1459 return -EINVAL; 1460 1461 id = find_token_id(kbd_tokens[bit]); 1462 if (id == -1) 1463 return -EINVAL; 1464 1465 get_buffer(); 1466 buffer->input[0] = da_tokens[id].location; 1467 buffer->input[1] = da_tokens[id].value; 1468 dell_send_request(buffer, 1, 0); 1469 ret = buffer->output[0]; 1470 release_buffer(); 1471 1472 return dell_smi_error(ret); 1473} 1474 1475static int kbd_get_token_bit(u8 bit) 1476{ 1477 int id; 1478 int ret; 1479 int val; 1480 1481 if (bit >= ARRAY_SIZE(kbd_tokens)) 1482 return -EINVAL; 1483 1484 id = find_token_id(kbd_tokens[bit]); 1485 if (id == -1) 1486 return -EINVAL; 1487 1488 get_buffer(); 1489 buffer->input[0] = da_tokens[id].location; 1490 dell_send_request(buffer, 0, 0); 1491 ret = buffer->output[0]; 1492 val = buffer->output[1]; 1493 release_buffer(); 1494 1495 if (ret) 1496 return dell_smi_error(ret); 1497 1498 return (val == da_tokens[id].value); 1499} 1500 1501static int kbd_get_first_active_token_bit(void) 1502{ 1503 int i; 1504 int ret; 1505 1506 for (i = 0; i < ARRAY_SIZE(kbd_tokens); ++i) { 1507 ret = kbd_get_token_bit(i); 1508 if (ret == 1) 1509 return i; 1510 } 1511 1512 return ret; 1513} 1514 1515static int kbd_get_valid_token_counts(void) 1516{ 1517 return hweight16(kbd_token_bits); 1518} 1519 1520static inline int kbd_init_info(void) 1521{ 1522 struct kbd_state state; 1523 int ret; 1524 int i; 1525 1526 ret = kbd_get_info(&kbd_info); 1527 if (ret) 1528 return ret; 1529 1530 kbd_get_state(&state); 1531 1532 /* NOTE: timeout value is stored in 6 bits so max value is 63 */ 1533 if (kbd_info.seconds > 63) 1534 kbd_info.seconds = 63; 1535 if (kbd_info.minutes > 63) 1536 kbd_info.minutes = 63; 1537 if (kbd_info.hours > 63) 1538 kbd_info.hours = 63; 1539 if (kbd_info.days > 63) 1540 kbd_info.days = 63; 1541 1542 /* NOTE: On tested machines ON mode did not work and caused 1543 * problems (turned backlight off) so do not use it 1544 */ 1545 kbd_info.modes &= ~BIT(KBD_MODE_BIT_ON); 1546 1547 kbd_previous_level = kbd_get_level(&state); 1548 kbd_previous_mode_bit = state.mode_bit; 1549 1550 if (kbd_previous_level == 0 && kbd_get_max_level() != 0) 1551 kbd_previous_level = 1; 1552 1553 if (kbd_previous_mode_bit == KBD_MODE_BIT_OFF) { 1554 kbd_previous_mode_bit = 1555 ffs(kbd_info.modes & ~BIT(KBD_MODE_BIT_OFF)); 1556 if (kbd_previous_mode_bit != 0) 1557 kbd_previous_mode_bit--; 1558 } 1559 1560 if (kbd_info.modes & (BIT(KBD_MODE_BIT_ALS) | 1561 BIT(KBD_MODE_BIT_TRIGGER_ALS))) 1562 kbd_als_supported = true; 1563 1564 if (kbd_info.modes & ( 1565 BIT(KBD_MODE_BIT_TRIGGER_ALS) | BIT(KBD_MODE_BIT_TRIGGER) | 1566 BIT(KBD_MODE_BIT_TRIGGER_25) | BIT(KBD_MODE_BIT_TRIGGER_50) | 1567 BIT(KBD_MODE_BIT_TRIGGER_75) | BIT(KBD_MODE_BIT_TRIGGER_100) 1568 )) 1569 kbd_triggers_supported = true; 1570 1571 /* kbd_mode_levels[0] is reserved, see below */ 1572 for (i = 0; i < 16; ++i) 1573 if (kbd_is_level_mode_bit(i) && (BIT(i) & kbd_info.modes)) 1574 kbd_mode_levels[1 + kbd_mode_levels_count++] = i; 1575 1576 /* 1577 * Find the first supported mode and assign to kbd_mode_levels[0]. 1578 * This should be 0 (off), but we cannot depend on the BIOS to 1579 * support 0. 1580 */ 1581 if (kbd_mode_levels_count > 0) { 1582 for (i = 0; i < 16; ++i) { 1583 if (BIT(i) & kbd_info.modes) { 1584 kbd_mode_levels[0] = i; 1585 break; 1586 } 1587 } 1588 kbd_mode_levels_count++; 1589 } 1590 1591 return 0; 1592 1593} 1594 1595static inline void kbd_init_tokens(void) 1596{ 1597 int i; 1598 1599 for (i = 0; i < ARRAY_SIZE(kbd_tokens); ++i) 1600 if (find_token_id(kbd_tokens[i]) != -1) 1601 kbd_token_bits |= BIT(i); 1602} 1603 1604static void kbd_init(void) 1605{ 1606 int ret; 1607 1608 ret = kbd_init_info(); 1609 kbd_init_tokens(); 1610 1611 if (kbd_token_bits != 0 || ret == 0) 1612 kbd_led_present = true; 1613} 1614 1615static ssize_t kbd_led_timeout_store(struct device *dev, 1616 struct device_attribute *attr, 1617 const char *buf, size_t count) 1618{ 1619 struct kbd_state new_state; 1620 struct kbd_state state; 1621 bool convert; 1622 int value; 1623 int ret; 1624 char ch; 1625 u8 unit; 1626 int i; 1627 1628 ret = sscanf(buf, "%d %c", &value, &ch); 1629 if (ret < 1) 1630 return -EINVAL; 1631 else if (ret == 1) 1632 ch = 's'; 1633 1634 if (value < 0) 1635 return -EINVAL; 1636 1637 convert = false; 1638 1639 switch (ch) { 1640 case 's': 1641 if (value > kbd_info.seconds) 1642 convert = true; 1643 unit = KBD_TIMEOUT_SECONDS; 1644 break; 1645 case 'm': 1646 if (value > kbd_info.minutes) 1647 convert = true; 1648 unit = KBD_TIMEOUT_MINUTES; 1649 break; 1650 case 'h': 1651 if (value > kbd_info.hours) 1652 convert = true; 1653 unit = KBD_TIMEOUT_HOURS; 1654 break; 1655 case 'd': 1656 if (value > kbd_info.days) 1657 convert = true; 1658 unit = KBD_TIMEOUT_DAYS; 1659 break; 1660 default: 1661 return -EINVAL; 1662 } 1663 1664 if (quirks && quirks->needs_kbd_timeouts) 1665 convert = true; 1666 1667 if (convert) { 1668 /* Convert value from current units to seconds */ 1669 switch (unit) { 1670 case KBD_TIMEOUT_DAYS: 1671 value *= 24; 1672 case KBD_TIMEOUT_HOURS: 1673 value *= 60; 1674 case KBD_TIMEOUT_MINUTES: 1675 value *= 60; 1676 unit = KBD_TIMEOUT_SECONDS; 1677 } 1678 1679 if (quirks && quirks->needs_kbd_timeouts) { 1680 for (i = 0; quirks->kbd_timeouts[i] != -1; i++) { 1681 if (value <= quirks->kbd_timeouts[i]) { 1682 value = quirks->kbd_timeouts[i]; 1683 break; 1684 } 1685 } 1686 } 1687 1688 if (value <= kbd_info.seconds && kbd_info.seconds) { 1689 unit = KBD_TIMEOUT_SECONDS; 1690 } else if (value / 60 <= kbd_info.minutes && kbd_info.minutes) { 1691 value /= 60; 1692 unit = KBD_TIMEOUT_MINUTES; 1693 } else if (value / (60 * 60) <= kbd_info.hours && kbd_info.hours) { 1694 value /= (60 * 60); 1695 unit = KBD_TIMEOUT_HOURS; 1696 } else if (value / (60 * 60 * 24) <= kbd_info.days && kbd_info.days) { 1697 value /= (60 * 60 * 24); 1698 unit = KBD_TIMEOUT_DAYS; 1699 } else { 1700 return -EINVAL; 1701 } 1702 } 1703 1704 ret = kbd_get_state(&state); 1705 if (ret) 1706 return ret; 1707 1708 new_state = state; 1709 new_state.timeout_value = value; 1710 new_state.timeout_unit = unit; 1711 1712 ret = kbd_set_state_safe(&new_state, &state); 1713 if (ret) 1714 return ret; 1715 1716 return count; 1717} 1718 1719static ssize_t kbd_led_timeout_show(struct device *dev, 1720 struct device_attribute *attr, char *buf) 1721{ 1722 struct kbd_state state; 1723 int ret; 1724 int len; 1725 1726 ret = kbd_get_state(&state); 1727 if (ret) 1728 return ret; 1729 1730 len = sprintf(buf, "%d", state.timeout_value); 1731 1732 switch (state.timeout_unit) { 1733 case KBD_TIMEOUT_SECONDS: 1734 return len + sprintf(buf+len, "s\n"); 1735 case KBD_TIMEOUT_MINUTES: 1736 return len + sprintf(buf+len, "m\n"); 1737 case KBD_TIMEOUT_HOURS: 1738 return len + sprintf(buf+len, "h\n"); 1739 case KBD_TIMEOUT_DAYS: 1740 return len + sprintf(buf+len, "d\n"); 1741 default: 1742 return -EINVAL; 1743 } 1744 1745 return len; 1746} 1747 1748static DEVICE_ATTR(stop_timeout, S_IRUGO | S_IWUSR, 1749 kbd_led_timeout_show, kbd_led_timeout_store); 1750 1751static const char * const kbd_led_triggers[] = { 1752 "keyboard", 1753 "touchpad", 1754 /*"trackstick"*/ NULL, /* NOTE: trackstick is just alias for touchpad */ 1755 "mouse", 1756}; 1757 1758static ssize_t kbd_led_triggers_store(struct device *dev, 1759 struct device_attribute *attr, 1760 const char *buf, size_t count) 1761{ 1762 struct kbd_state new_state; 1763 struct kbd_state state; 1764 bool triggers_enabled = false; 1765 int trigger_bit = -1; 1766 char trigger[21]; 1767 int i, ret; 1768 1769 ret = sscanf(buf, "%20s", trigger); 1770 if (ret != 1) 1771 return -EINVAL; 1772 1773 if (trigger[0] != '+' && trigger[0] != '-') 1774 return -EINVAL; 1775 1776 ret = kbd_get_state(&state); 1777 if (ret) 1778 return ret; 1779 1780 if (kbd_triggers_supported) 1781 triggers_enabled = kbd_is_trigger_mode_bit(state.mode_bit); 1782 1783 if (kbd_triggers_supported) { 1784 for (i = 0; i < ARRAY_SIZE(kbd_led_triggers); ++i) { 1785 if (!(kbd_info.triggers & BIT(i))) 1786 continue; 1787 if (!kbd_led_triggers[i]) 1788 continue; 1789 if (strcmp(trigger+1, kbd_led_triggers[i]) != 0) 1790 continue; 1791 if (trigger[0] == '+' && 1792 triggers_enabled && (state.triggers & BIT(i))) 1793 return count; 1794 if (trigger[0] == '-' && 1795 (!triggers_enabled || !(state.triggers & BIT(i)))) 1796 return count; 1797 trigger_bit = i; 1798 break; 1799 } 1800 } 1801 1802 if (trigger_bit != -1) { 1803 new_state = state; 1804 if (trigger[0] == '+') 1805 new_state.triggers |= BIT(trigger_bit); 1806 else { 1807 new_state.triggers &= ~BIT(trigger_bit); 1808 /* NOTE: trackstick bit (2) must be disabled when 1809 * disabling touchpad bit (1), otherwise touchpad 1810 * bit (1) will not be disabled */ 1811 if (trigger_bit == 1) 1812 new_state.triggers &= ~BIT(2); 1813 } 1814 if ((kbd_info.triggers & new_state.triggers) != 1815 new_state.triggers) 1816 return -EINVAL; 1817 if (new_state.triggers && !triggers_enabled) { 1818 new_state.mode_bit = KBD_MODE_BIT_TRIGGER; 1819 kbd_set_level(&new_state, kbd_previous_level); 1820 } else if (new_state.triggers == 0) { 1821 kbd_set_level(&new_state, 0); 1822 } 1823 if (!(kbd_info.modes & BIT(new_state.mode_bit))) 1824 return -EINVAL; 1825 ret = kbd_set_state_safe(&new_state, &state); 1826 if (ret) 1827 return ret; 1828 if (new_state.mode_bit != KBD_MODE_BIT_OFF) 1829 kbd_previous_mode_bit = new_state.mode_bit; 1830 return count; 1831 } 1832 1833 return -EINVAL; 1834} 1835 1836static ssize_t kbd_led_triggers_show(struct device *dev, 1837 struct device_attribute *attr, char *buf) 1838{ 1839 struct kbd_state state; 1840 bool triggers_enabled; 1841 int level, i, ret; 1842 int len = 0; 1843 1844 ret = kbd_get_state(&state); 1845 if (ret) 1846 return ret; 1847 1848 len = 0; 1849 1850 if (kbd_triggers_supported) { 1851 triggers_enabled = kbd_is_trigger_mode_bit(state.mode_bit); 1852 level = kbd_get_level(&state); 1853 for (i = 0; i < ARRAY_SIZE(kbd_led_triggers); ++i) { 1854 if (!(kbd_info.triggers & BIT(i))) 1855 continue; 1856 if (!kbd_led_triggers[i]) 1857 continue; 1858 if ((triggers_enabled || level <= 0) && 1859 (state.triggers & BIT(i))) 1860 buf[len++] = '+'; 1861 else 1862 buf[len++] = '-'; 1863 len += sprintf(buf+len, "%s ", kbd_led_triggers[i]); 1864 } 1865 } 1866 1867 if (len) 1868 buf[len - 1] = '\n'; 1869 1870 return len; 1871} 1872 1873static DEVICE_ATTR(start_triggers, S_IRUGO | S_IWUSR, 1874 kbd_led_triggers_show, kbd_led_triggers_store); 1875 1876static ssize_t kbd_led_als_enabled_store(struct device *dev, 1877 struct device_attribute *attr, 1878 const char *buf, size_t count) 1879{ 1880 struct kbd_state new_state; 1881 struct kbd_state state; 1882 bool triggers_enabled = false; 1883 int enable; 1884 int ret; 1885 1886 ret = kstrtoint(buf, 0, &enable); 1887 if (ret) 1888 return ret; 1889 1890 ret = kbd_get_state(&state); 1891 if (ret) 1892 return ret; 1893 1894 if (enable == kbd_is_als_mode_bit(state.mode_bit)) 1895 return count; 1896 1897 new_state = state; 1898 1899 if (kbd_triggers_supported) 1900 triggers_enabled = kbd_is_trigger_mode_bit(state.mode_bit); 1901 1902 if (enable) { 1903 if (triggers_enabled) 1904 new_state.mode_bit = KBD_MODE_BIT_TRIGGER_ALS; 1905 else 1906 new_state.mode_bit = KBD_MODE_BIT_ALS; 1907 } else { 1908 if (triggers_enabled) { 1909 new_state.mode_bit = KBD_MODE_BIT_TRIGGER; 1910 kbd_set_level(&new_state, kbd_previous_level); 1911 } else { 1912 new_state.mode_bit = KBD_MODE_BIT_ON; 1913 } 1914 } 1915 if (!(kbd_info.modes & BIT(new_state.mode_bit))) 1916 return -EINVAL; 1917 1918 ret = kbd_set_state_safe(&new_state, &state); 1919 if (ret) 1920 return ret; 1921 kbd_previous_mode_bit = new_state.mode_bit; 1922 1923 return count; 1924} 1925 1926static ssize_t kbd_led_als_enabled_show(struct device *dev, 1927 struct device_attribute *attr, 1928 char *buf) 1929{ 1930 struct kbd_state state; 1931 bool enabled = false; 1932 int ret; 1933 1934 ret = kbd_get_state(&state); 1935 if (ret) 1936 return ret; 1937 enabled = kbd_is_als_mode_bit(state.mode_bit); 1938 1939 return sprintf(buf, "%d\n", enabled ? 1 : 0); 1940} 1941 1942static DEVICE_ATTR(als_enabled, S_IRUGO | S_IWUSR, 1943 kbd_led_als_enabled_show, kbd_led_als_enabled_store); 1944 1945static ssize_t kbd_led_als_setting_store(struct device *dev, 1946 struct device_attribute *attr, 1947 const char *buf, size_t count) 1948{ 1949 struct kbd_state state; 1950 struct kbd_state new_state; 1951 u8 setting; 1952 int ret; 1953 1954 ret = kstrtou8(buf, 10, &setting); 1955 if (ret) 1956 return ret; 1957 1958 ret = kbd_get_state(&state); 1959 if (ret) 1960 return ret; 1961 1962 new_state = state; 1963 new_state.als_setting = setting; 1964 1965 ret = kbd_set_state_safe(&new_state, &state); 1966 if (ret) 1967 return ret; 1968 1969 return count; 1970} 1971 1972static ssize_t kbd_led_als_setting_show(struct device *dev, 1973 struct device_attribute *attr, 1974 char *buf) 1975{ 1976 struct kbd_state state; 1977 int ret; 1978 1979 ret = kbd_get_state(&state); 1980 if (ret) 1981 return ret; 1982 1983 return sprintf(buf, "%d\n", state.als_setting); 1984} 1985 1986static DEVICE_ATTR(als_setting, S_IRUGO | S_IWUSR, 1987 kbd_led_als_setting_show, kbd_led_als_setting_store); 1988 1989static struct attribute *kbd_led_attrs[] = { 1990 &dev_attr_stop_timeout.attr, 1991 &dev_attr_start_triggers.attr, 1992 NULL, 1993}; 1994 1995static const struct attribute_group kbd_led_group = { 1996 .attrs = kbd_led_attrs, 1997}; 1998 1999static struct attribute *kbd_led_als_attrs[] = { 2000 &dev_attr_als_enabled.attr, 2001 &dev_attr_als_setting.attr, 2002 NULL, 2003}; 2004 2005static const struct attribute_group kbd_led_als_group = { 2006 .attrs = kbd_led_als_attrs, 2007}; 2008 2009static const struct attribute_group *kbd_led_groups[] = { 2010 &kbd_led_group, 2011 &kbd_led_als_group, 2012 NULL, 2013}; 2014 2015static enum led_brightness kbd_led_level_get(struct led_classdev *led_cdev) 2016{ 2017 int ret; 2018 u16 num; 2019 struct kbd_state state; 2020 2021 if (kbd_get_max_level()) { 2022 ret = kbd_get_state(&state); 2023 if (ret) 2024 return 0; 2025 ret = kbd_get_level(&state); 2026 if (ret < 0) 2027 return 0; 2028 return ret; 2029 } 2030 2031 if (kbd_get_valid_token_counts()) { 2032 ret = kbd_get_first_active_token_bit(); 2033 if (ret < 0) 2034 return 0; 2035 for (num = kbd_token_bits; num != 0 && ret > 0; --ret) 2036 num &= num - 1; /* clear the first bit set */ 2037 if (num == 0) 2038 return 0; 2039 return ffs(num) - 1; 2040 } 2041 2042 pr_warn("Keyboard brightness level control not supported\n"); 2043 return 0; 2044} 2045 2046static void kbd_led_level_set(struct led_classdev *led_cdev, 2047 enum led_brightness value) 2048{ 2049 struct kbd_state state; 2050 struct kbd_state new_state; 2051 u16 num; 2052 2053 if (kbd_get_max_level()) { 2054 if (kbd_get_state(&state)) 2055 return; 2056 new_state = state; 2057 if (kbd_set_level(&new_state, value)) 2058 return; 2059 kbd_set_state_safe(&new_state, &state); 2060 return; 2061 } 2062 2063 if (kbd_get_valid_token_counts()) { 2064 for (num = kbd_token_bits; num != 0 && value > 0; --value) 2065 num &= num - 1; /* clear the first bit set */ 2066 if (num == 0) 2067 return; 2068 kbd_set_token_bit(ffs(num) - 1); 2069 return; 2070 } 2071 2072 pr_warn("Keyboard brightness level control not supported\n"); 2073} 2074 2075static struct led_classdev kbd_led = { 2076 .name = "dell::kbd_backlight", 2077 .brightness_set = kbd_led_level_set, 2078 .brightness_get = kbd_led_level_get, 2079 .groups = kbd_led_groups, 2080}; 2081 2082static int __init kbd_led_init(struct device *dev) 2083{ 2084 kbd_init(); 2085 if (!kbd_led_present) 2086 return -ENODEV; 2087 if (!kbd_als_supported) 2088 kbd_led_groups[1] = NULL; 2089 kbd_led.max_brightness = kbd_get_max_level(); 2090 if (!kbd_led.max_brightness) { 2091 kbd_led.max_brightness = kbd_get_valid_token_counts(); 2092 if (kbd_led.max_brightness) 2093 kbd_led.max_brightness--; 2094 } 2095 return led_classdev_register(dev, &kbd_led); 2096} 2097 2098static void brightness_set_exit(struct led_classdev *led_cdev, 2099 enum led_brightness value) 2100{ 2101 /* Don't change backlight level on exit */ 2102}; 2103 2104static void kbd_led_exit(void) 2105{ 2106 if (!kbd_led_present) 2107 return; 2108 kbd_led.brightness_set = brightness_set_exit; 2109 led_classdev_unregister(&kbd_led); 2110} 2111 2112static int __init dell_init(void) 2113{ 2114 int max_intensity = 0; 2115 int token; 2116 int ret; 2117 2118 if (!dmi_check_system(dell_device_table)) 2119 return -ENODEV; 2120 2121 quirks = NULL; 2122 /* find if this machine support other functions */ 2123 dmi_check_system(dell_quirks); 2124 2125 dmi_walk(find_tokens, NULL); 2126 2127 if (!da_tokens) { 2128 pr_info("Unable to find dmi tokens\n"); 2129 return -ENODEV; 2130 } 2131 2132 ret = platform_driver_register(&platform_driver); 2133 if (ret) 2134 goto fail_platform_driver; 2135 platform_device = platform_device_alloc("dell-laptop", -1); 2136 if (!platform_device) { 2137 ret = -ENOMEM; 2138 goto fail_platform_device1; 2139 } 2140 ret = platform_device_add(platform_device); 2141 if (ret) 2142 goto fail_platform_device2; 2143 2144 /* 2145 * Allocate buffer below 4GB for SMI data--only 32-bit physical addr 2146 * is passed to SMI handler. 2147 */ 2148 buffer = (void *)__get_free_page(GFP_KERNEL | GFP_DMA32); 2149 if (!buffer) { 2150 ret = -ENOMEM; 2151 goto fail_buffer; 2152 } 2153 2154 ret = dell_setup_rfkill(); 2155 2156 if (ret) { 2157 pr_warn("Unable to setup rfkill\n"); 2158 goto fail_rfkill; 2159 } 2160 2161 if (quirks && quirks->touchpad_led) 2162 touchpad_led_init(&platform_device->dev); 2163 2164 kbd_led_init(&platform_device->dev); 2165 2166 dell_laptop_dir = debugfs_create_dir("dell_laptop", NULL); 2167 if (dell_laptop_dir != NULL) 2168 debugfs_create_file("rfkill", 0444, dell_laptop_dir, NULL, 2169 &dell_debugfs_fops); 2170 2171 if (acpi_video_get_backlight_type() != acpi_backlight_vendor) 2172 return 0; 2173 2174 token = find_token_location(BRIGHTNESS_TOKEN); 2175 if (token != -1) { 2176 get_buffer(); 2177 buffer->input[0] = token; 2178 dell_send_request(buffer, 0, 2); 2179 if (buffer->output[0] == 0) 2180 max_intensity = buffer->output[3]; 2181 release_buffer(); 2182 } 2183 2184 if (max_intensity) { 2185 struct backlight_properties props; 2186 memset(&props, 0, sizeof(struct backlight_properties)); 2187 props.type = BACKLIGHT_PLATFORM; 2188 props.max_brightness = max_intensity; 2189 dell_backlight_device = backlight_device_register("dell_backlight", 2190 &platform_device->dev, 2191 NULL, 2192 &dell_ops, 2193 &props); 2194 2195 if (IS_ERR(dell_backlight_device)) { 2196 ret = PTR_ERR(dell_backlight_device); 2197 dell_backlight_device = NULL; 2198 goto fail_backlight; 2199 } 2200 2201 dell_backlight_device->props.brightness = 2202 dell_get_intensity(dell_backlight_device); 2203 backlight_update_status(dell_backlight_device); 2204 } 2205 2206 return 0; 2207 2208fail_backlight: 2209 dell_cleanup_rfkill(); 2210fail_rfkill: 2211 free_page((unsigned long)buffer); 2212fail_buffer: 2213 platform_device_del(platform_device); 2214fail_platform_device2: 2215 platform_device_put(platform_device); 2216fail_platform_device1: 2217 platform_driver_unregister(&platform_driver); 2218fail_platform_driver: 2219 kfree(da_tokens); 2220 return ret; 2221} 2222 2223static void __exit dell_exit(void) 2224{ 2225 debugfs_remove_recursive(dell_laptop_dir); 2226 if (quirks && quirks->touchpad_led) 2227 touchpad_led_exit(); 2228 kbd_led_exit(); 2229 backlight_device_unregister(dell_backlight_device); 2230 dell_cleanup_rfkill(); 2231 if (platform_device) { 2232 platform_device_unregister(platform_device); 2233 platform_driver_unregister(&platform_driver); 2234 } 2235 kfree(da_tokens); 2236 free_page((unsigned long)buffer); 2237} 2238 2239/* dell-rbtn.c driver export functions which will not work correctly (and could 2240 * cause kernel crash) if they are called before dell-rbtn.c init code. This is 2241 * not problem when dell-rbtn.c is compiled as external module. When both files 2242 * (dell-rbtn.c and dell-laptop.c) are compiled statically into kernel, then we 2243 * need to ensure that dell_init() will be called after initializing dell-rbtn. 2244 * This can be achieved by late_initcall() instead module_init(). 2245 */ 2246late_initcall(dell_init); 2247module_exit(dell_exit); 2248 2249MODULE_AUTHOR("Matthew Garrett <mjg@redhat.com>"); 2250MODULE_AUTHOR("Gabriele Mazzotta <gabriele.mzt@gmail.com>"); 2251MODULE_AUTHOR("Pali Rohár <pali.rohar@gmail.com>"); 2252MODULE_DESCRIPTION("Dell laptop driver"); 2253MODULE_LICENSE("GPL");