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11844 11845 11846 11847 11848 11849 11850 11851 11852 11853 11854 11855 11856 11857 11858 11859 11860 11861 11862 11863 11864 11865 11866 11867 11868 11869 11870 11871 11872 11873 11874 11875 11876 11877 11878 11879 11880 11881 11882 11883 11884 11885 11886 11887 11888 11889 11890 11891 11892 11893 | // SPDX-License-Identifier: GPL-2.0-or-later /* * thinkpad_acpi.c - ThinkPad ACPI Extras * * Copyright (C) 2004-2005 Borislav Deianov <borislav@users.sf.net> * Copyright (C) 2006-2009 Henrique de Moraes Holschuh <hmh@hmh.eng.br> */ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #define TPACPI_VERSION "0.26" #define TPACPI_SYSFS_VERSION 0x030000 /* * Changelog: * 2007-10-20 changelog trimmed down * * 2007-03-27 0.14 renamed to thinkpad_acpi and moved to * drivers/misc. * * 2006-11-22 0.13 new maintainer * changelog now lives in git commit history, and will * not be updated further in-file. * * 2005-03-17 0.11 support for 600e, 770x * thanks to Jamie Lentin <lentinj@dial.pipex.com> * * 2005-01-16 0.9 use MODULE_VERSION * thanks to Henrik Brix Andersen <brix@gentoo.org> * fix parameter passing on module loading * thanks to Rusty Russell <rusty@rustcorp.com.au> * thanks to Jim Radford <radford@blackbean.org> * 2004-11-08 0.8 fix init error case, don't return from a macro * thanks to Chris Wright <chrisw@osdl.org> */ #include <linux/acpi.h> #include <linux/backlight.h> #include <linux/bitops.h> #include <linux/delay.h> #include <linux/dmi.h> #include <linux/fb.h> #include <linux/freezer.h> #include <linux/hwmon.h> #include <linux/hwmon-sysfs.h> #include <linux/init.h> #include <linux/input.h> #include <linux/jiffies.h> #include <linux/kernel.h> #include <linux/kthread.h> #include <linux/leds.h> #include <linux/list.h> #include <linux/module.h> #include <linux/mutex.h> #include <linux/nvram.h> #include <linux/pci.h> #include <linux/platform_device.h> #include <linux/platform_profile.h> #include <linux/power_supply.h> #include <linux/proc_fs.h> #include <linux/rfkill.h> #include <linux/sched.h> #include <linux/sched/signal.h> #include <linux/seq_file.h> #include <linux/slab.h> #include <linux/string.h> #include <linux/string_helpers.h> #include <linux/sysfs.h> #include <linux/types.h> #include <linux/uaccess.h> #include <linux/workqueue.h> #include <acpi/battery.h> #include <acpi/video.h> #include <drm/drm_privacy_screen_driver.h> #include <sound/control.h> #include <sound/core.h> #include <sound/initval.h> #include "dual_accel_detect.h" /* ThinkPad CMOS commands */ #define TP_CMOS_VOLUME_DOWN 0 #define TP_CMOS_VOLUME_UP 1 #define TP_CMOS_VOLUME_MUTE 2 #define TP_CMOS_BRIGHTNESS_UP 4 #define TP_CMOS_BRIGHTNESS_DOWN 5 #define TP_CMOS_THINKLIGHT_ON 12 #define TP_CMOS_THINKLIGHT_OFF 13 /* NVRAM Addresses */ enum tp_nvram_addr { TP_NVRAM_ADDR_HK2 = 0x57, TP_NVRAM_ADDR_THINKLIGHT = 0x58, TP_NVRAM_ADDR_VIDEO = 0x59, TP_NVRAM_ADDR_BRIGHTNESS = 0x5e, TP_NVRAM_ADDR_MIXER = 0x60, }; /* NVRAM bit masks */ enum { TP_NVRAM_MASK_HKT_THINKPAD = 0x08, TP_NVRAM_MASK_HKT_ZOOM = 0x20, TP_NVRAM_MASK_HKT_DISPLAY = 0x40, TP_NVRAM_MASK_HKT_HIBERNATE = 0x80, TP_NVRAM_MASK_THINKLIGHT = 0x10, TP_NVRAM_MASK_HKT_DISPEXPND = 0x30, TP_NVRAM_MASK_HKT_BRIGHTNESS = 0x20, TP_NVRAM_MASK_LEVEL_BRIGHTNESS = 0x0f, TP_NVRAM_POS_LEVEL_BRIGHTNESS = 0, TP_NVRAM_MASK_MUTE = 0x40, TP_NVRAM_MASK_HKT_VOLUME = 0x80, TP_NVRAM_MASK_LEVEL_VOLUME = 0x0f, TP_NVRAM_POS_LEVEL_VOLUME = 0, }; /* Misc NVRAM-related */ enum { TP_NVRAM_LEVEL_VOLUME_MAX = 14, }; /* ACPI HIDs */ #define TPACPI_ACPI_IBM_HKEY_HID "IBM0068" #define TPACPI_ACPI_LENOVO_HKEY_HID "LEN0068" #define TPACPI_ACPI_LENOVO_HKEY_V2_HID "LEN0268" #define TPACPI_ACPI_EC_HID "PNP0C09" /* Input IDs */ #define TPACPI_HKEY_INPUT_PRODUCT 0x5054 /* "TP" */ #define TPACPI_HKEY_INPUT_VERSION 0x4101 /* ACPI \WGSV commands */ enum { TP_ACPI_WGSV_GET_STATE = 0x01, /* Get state information */ TP_ACPI_WGSV_PWR_ON_ON_RESUME = 0x02, /* Resume WWAN powered on */ TP_ACPI_WGSV_PWR_OFF_ON_RESUME = 0x03, /* Resume WWAN powered off */ TP_ACPI_WGSV_SAVE_STATE = 0x04, /* Save state for S4/S5 */ }; /* TP_ACPI_WGSV_GET_STATE bits */ enum { TP_ACPI_WGSV_STATE_WWANEXIST = 0x0001, /* WWAN hw available */ TP_ACPI_WGSV_STATE_WWANPWR = 0x0002, /* WWAN radio enabled */ TP_ACPI_WGSV_STATE_WWANPWRRES = 0x0004, /* WWAN state at resume */ TP_ACPI_WGSV_STATE_WWANBIOSOFF = 0x0008, /* WWAN disabled in BIOS */ TP_ACPI_WGSV_STATE_BLTHEXIST = 0x0001, /* BLTH hw available */ TP_ACPI_WGSV_STATE_BLTHPWR = 0x0002, /* BLTH radio enabled */ TP_ACPI_WGSV_STATE_BLTHPWRRES = 0x0004, /* BLTH state at resume */ TP_ACPI_WGSV_STATE_BLTHBIOSOFF = 0x0008, /* BLTH disabled in BIOS */ TP_ACPI_WGSV_STATE_UWBEXIST = 0x0010, /* UWB hw available */ TP_ACPI_WGSV_STATE_UWBPWR = 0x0020, /* UWB radio enabled */ }; /* HKEY events */ enum tpacpi_hkey_event_t { /* Hotkey-related */ TP_HKEY_EV_HOTKEY_BASE = 0x1001, /* first hotkey (FN+F1) */ TP_HKEY_EV_BRGHT_UP = 0x1010, /* Brightness up */ TP_HKEY_EV_BRGHT_DOWN = 0x1011, /* Brightness down */ TP_HKEY_EV_KBD_LIGHT = 0x1012, /* Thinklight/kbd backlight */ TP_HKEY_EV_VOL_UP = 0x1015, /* Volume up or unmute */ TP_HKEY_EV_VOL_DOWN = 0x1016, /* Volume down or unmute */ TP_HKEY_EV_VOL_MUTE = 0x1017, /* Mixer output mute */ TP_HKEY_EV_PRIVACYGUARD_TOGGLE = 0x130f, /* Toggle priv.guard on/off */ TP_HKEY_EV_AMT_TOGGLE = 0x131a, /* Toggle AMT on/off */ /* Reasons for waking up from S3/S4 */ TP_HKEY_EV_WKUP_S3_UNDOCK = 0x2304, /* undock requested, S3 */ TP_HKEY_EV_WKUP_S4_UNDOCK = 0x2404, /* undock requested, S4 */ TP_HKEY_EV_WKUP_S3_BAYEJ = 0x2305, /* bay ejection req, S3 */ TP_HKEY_EV_WKUP_S4_BAYEJ = 0x2405, /* bay ejection req, S4 */ TP_HKEY_EV_WKUP_S3_BATLOW = 0x2313, /* battery empty, S3 */ TP_HKEY_EV_WKUP_S4_BATLOW = 0x2413, /* battery empty, S4 */ /* Auto-sleep after eject request */ TP_HKEY_EV_BAYEJ_ACK = 0x3003, /* bay ejection complete */ TP_HKEY_EV_UNDOCK_ACK = 0x4003, /* undock complete */ /* Misc bay events */ TP_HKEY_EV_OPTDRV_EJ = 0x3006, /* opt. drive tray ejected */ TP_HKEY_EV_HOTPLUG_DOCK = 0x4010, /* docked into hotplug dock or port replicator */ TP_HKEY_EV_HOTPLUG_UNDOCK = 0x4011, /* undocked from hotplug dock or port replicator */ /* * Thinkpad X1 Tablet series devices emit 0x4012 and 0x4013 * when keyboard cover is attached, detached or folded onto the back */ TP_HKEY_EV_KBD_COVER_ATTACH = 0x4012, /* keyboard cover attached */ TP_HKEY_EV_KBD_COVER_DETACH = 0x4013, /* keyboard cover detached or folded back */ /* User-interface events */ TP_HKEY_EV_LID_CLOSE = 0x5001, /* laptop lid closed */ TP_HKEY_EV_LID_OPEN = 0x5002, /* laptop lid opened */ TP_HKEY_EV_TABLET_TABLET = 0x5009, /* tablet swivel up */ TP_HKEY_EV_TABLET_NOTEBOOK = 0x500a, /* tablet swivel down */ TP_HKEY_EV_TABLET_CHANGED = 0x60c0, /* X1 Yoga (2016): * enter/leave tablet mode */ TP_HKEY_EV_PEN_INSERTED = 0x500b, /* tablet pen inserted */ TP_HKEY_EV_PEN_REMOVED = 0x500c, /* tablet pen removed */ TP_HKEY_EV_BRGHT_CHANGED = 0x5010, /* backlight control event */ /* Key-related user-interface events */ TP_HKEY_EV_KEY_NUMLOCK = 0x6000, /* NumLock key pressed */ TP_HKEY_EV_KEY_FN = 0x6005, /* Fn key pressed? E420 */ TP_HKEY_EV_KEY_FN_ESC = 0x6060, /* Fn+Esc key pressed X240 */ /* Thermal events */ TP_HKEY_EV_ALARM_BAT_HOT = 0x6011, /* battery too hot */ TP_HKEY_EV_ALARM_BAT_XHOT = 0x6012, /* battery critically hot */ TP_HKEY_EV_ALARM_SENSOR_HOT = 0x6021, /* sensor too hot */ TP_HKEY_EV_ALARM_SENSOR_XHOT = 0x6022, /* sensor critically hot */ TP_HKEY_EV_THM_TABLE_CHANGED = 0x6030, /* windows; thermal table changed */ TP_HKEY_EV_THM_CSM_COMPLETED = 0x6032, /* windows; thermal control set * command completed. Related to * AML DYTC */ TP_HKEY_EV_THM_TRANSFM_CHANGED = 0x60F0, /* windows; thermal transformation * changed. Related to AML GMTS */ /* AC-related events */ TP_HKEY_EV_AC_CHANGED = 0x6040, /* AC status changed */ /* Further user-interface events */ TP_HKEY_EV_PALM_DETECTED = 0x60b0, /* palm hoveres keyboard */ TP_HKEY_EV_PALM_UNDETECTED = 0x60b1, /* palm removed */ /* Misc */ TP_HKEY_EV_RFKILL_CHANGED = 0x7000, /* rfkill switch changed */ }; /**************************************************************************** * Main driver */ #define TPACPI_NAME "thinkpad" #define TPACPI_DESC "ThinkPad ACPI Extras" #define TPACPI_FILE TPACPI_NAME "_acpi" #define TPACPI_URL "http://ibm-acpi.sf.net/" #define TPACPI_MAIL "ibm-acpi-devel@lists.sourceforge.net" #define TPACPI_PROC_DIR "ibm" #define TPACPI_ACPI_EVENT_PREFIX "ibm" #define TPACPI_DRVR_NAME TPACPI_FILE #define TPACPI_DRVR_SHORTNAME "tpacpi" #define TPACPI_HWMON_DRVR_NAME TPACPI_NAME "_hwmon" #define TPACPI_NVRAM_KTHREAD_NAME "ktpacpi_nvramd" #define TPACPI_WORKQUEUE_NAME "ktpacpid" #define TPACPI_MAX_ACPI_ARGS 3 /* Debugging printk groups */ #define TPACPI_DBG_ALL 0xffff #define TPACPI_DBG_DISCLOSETASK 0x8000 #define TPACPI_DBG_INIT 0x0001 #define TPACPI_DBG_EXIT 0x0002 #define TPACPI_DBG_RFKILL 0x0004 #define TPACPI_DBG_HKEY 0x0008 #define TPACPI_DBG_FAN 0x0010 #define TPACPI_DBG_BRGHT 0x0020 #define TPACPI_DBG_MIXER 0x0040 #define FAN_NOT_PRESENT 65535 /**************************************************************************** * Driver-wide structs and misc. variables */ struct ibm_struct; struct tp_acpi_drv_struct { const struct acpi_device_id *hid; struct acpi_driver *driver; void (*notify) (struct ibm_struct *, u32); acpi_handle *handle; u32 type; struct acpi_device *device; }; struct ibm_struct { char *name; int (*read) (struct seq_file *); int (*write) (char *); void (*exit) (void); void (*resume) (void); void (*suspend) (void); void (*shutdown) (void); struct list_head all_drivers; struct tp_acpi_drv_struct *acpi; struct { u8 acpi_driver_registered:1; u8 acpi_notify_installed:1; u8 proc_created:1; u8 init_called:1; u8 experimental:1; } flags; }; struct ibm_init_struct { char param[32]; int (*init) (struct ibm_init_struct *); umode_t base_procfs_mode; struct ibm_struct *data; }; /* DMI Quirks */ struct quirk_entry { bool btusb_bug; u32 s2idle_bug_mmio; }; static struct quirk_entry quirk_btusb_bug = { .btusb_bug = true, }; static struct quirk_entry quirk_s2idle_bug = { .s2idle_bug_mmio = 0xfed80380, }; static struct { u32 bluetooth:1; u32 hotkey:1; u32 hotkey_mask:1; u32 hotkey_wlsw:1; enum { TP_HOTKEY_TABLET_NONE = 0, TP_HOTKEY_TABLET_USES_MHKG, TP_HOTKEY_TABLET_USES_GMMS, } hotkey_tablet; u32 kbdlight:1; u32 light:1; u32 light_status:1; u32 bright_acpimode:1; u32 bright_unkfw:1; u32 wan:1; u32 uwb:1; u32 fan_ctrl_status_undef:1; u32 second_fan:1; u32 second_fan_ctl:1; u32 beep_needs_two_args:1; u32 mixer_no_level_control:1; u32 battery_force_primary:1; u32 input_device_registered:1; u32 platform_drv_registered:1; u32 sensors_pdrv_registered:1; u32 hotkey_poll_active:1; u32 has_adaptive_kbd:1; u32 kbd_lang:1; struct quirk_entry *quirks; } tp_features; static struct { u16 hotkey_mask_ff:1; u16 volume_ctrl_forbidden:1; } tp_warned; struct thinkpad_id_data { unsigned int vendor; /* ThinkPad vendor: * PCI_VENDOR_ID_IBM/PCI_VENDOR_ID_LENOVO */ char *bios_version_str; /* Something like 1ZET51WW (1.03z) */ char *ec_version_str; /* Something like 1ZHT51WW-1.04a */ u32 bios_model; /* 1Y = 0x3159, 0 = unknown */ u32 ec_model; u16 bios_release; /* 1ZETK1WW = 0x4b31, 0 = unknown */ u16 ec_release; char *model_str; /* ThinkPad T43 */ char *nummodel_str; /* 9384A9C for a 9384-A9C model */ }; static struct thinkpad_id_data thinkpad_id; static enum { TPACPI_LIFE_INIT = 0, TPACPI_LIFE_RUNNING, TPACPI_LIFE_EXITING, } tpacpi_lifecycle; static int experimental; static u32 dbg_level; static struct workqueue_struct *tpacpi_wq; enum led_status_t { TPACPI_LED_OFF = 0, TPACPI_LED_ON, TPACPI_LED_BLINK, }; /* tpacpi LED class */ struct tpacpi_led_classdev { struct led_classdev led_classdev; int led; }; /* brightness level capabilities */ static unsigned int bright_maxlvl; /* 0 = unknown */ #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES static int dbg_wlswemul; static bool tpacpi_wlsw_emulstate; static int dbg_bluetoothemul; static bool tpacpi_bluetooth_emulstate; static int dbg_wwanemul; static bool tpacpi_wwan_emulstate; static int dbg_uwbemul; static bool tpacpi_uwb_emulstate; #endif /************************************************************************* * Debugging helpers */ #define dbg_printk(a_dbg_level, format, arg...) \ do { \ if (dbg_level & (a_dbg_level)) \ printk(KERN_DEBUG pr_fmt("%s: " format), \ __func__, ##arg); \ } while (0) #ifdef CONFIG_THINKPAD_ACPI_DEBUG #define vdbg_printk dbg_printk static const char *str_supported(int is_supported); #else static inline const char *str_supported(int is_supported) { return ""; } #define vdbg_printk(a_dbg_level, format, arg...) \ do { if (0) no_printk(format, ##arg); } while (0) #endif static void tpacpi_log_usertask(const char * const what) { printk(KERN_DEBUG pr_fmt("%s: access by process with PID %d\n"), what, task_tgid_vnr(current)); } #define tpacpi_disclose_usertask(what, format, arg...) \ do { \ if (unlikely((dbg_level & TPACPI_DBG_DISCLOSETASK) && \ (tpacpi_lifecycle == TPACPI_LIFE_RUNNING))) { \ printk(KERN_DEBUG pr_fmt("%s: PID %d: " format), \ what, task_tgid_vnr(current), ## arg); \ } \ } while (0) /* * Quirk handling helpers * * ThinkPad IDs and versions seen in the field so far are * two or three characters from the set [0-9A-Z], i.e. base 36. * * We use values well outside that range as specials. */ #define TPACPI_MATCH_ANY 0xffffffffU #define TPACPI_MATCH_ANY_VERSION 0xffffU #define TPACPI_MATCH_UNKNOWN 0U /* TPID('1', 'Y') == 0x3159 */ #define TPID(__c1, __c2) (((__c1) << 8) | (__c2)) #define TPID3(__c1, __c2, __c3) (((__c1) << 16) | ((__c2) << 8) | (__c3)) #define TPVER TPID #define TPACPI_Q_IBM(__id1, __id2, __quirk) \ { .vendor = PCI_VENDOR_ID_IBM, \ .bios = TPID(__id1, __id2), \ .ec = TPACPI_MATCH_ANY, \ .quirks = (__quirk) } #define TPACPI_Q_LNV(__id1, __id2, __quirk) \ { .vendor = PCI_VENDOR_ID_LENOVO, \ .bios = TPID(__id1, __id2), \ .ec = TPACPI_MATCH_ANY, \ .quirks = (__quirk) } #define TPACPI_Q_LNV3(__id1, __id2, __id3, __quirk) \ { .vendor = PCI_VENDOR_ID_LENOVO, \ .bios = TPID3(__id1, __id2, __id3), \ .ec = TPACPI_MATCH_ANY, \ .quirks = (__quirk) } #define TPACPI_QEC_IBM(__id1, __id2, __quirk) \ { .vendor = PCI_VENDOR_ID_IBM, \ .bios = TPACPI_MATCH_ANY, \ .ec = TPID(__id1, __id2), \ .quirks = (__quirk) } #define TPACPI_QEC_LNV(__id1, __id2, __quirk) \ { .vendor = PCI_VENDOR_ID_LENOVO, \ .bios = TPACPI_MATCH_ANY, \ .ec = TPID(__id1, __id2), \ .quirks = (__quirk) } struct tpacpi_quirk { unsigned int vendor; u32 bios; u32 ec; unsigned long quirks; }; /** * tpacpi_check_quirks() - search BIOS/EC version on a list * @qlist: array of &struct tpacpi_quirk * @qlist_size: number of elements in @qlist * * Iterates over a quirks list until one is found that matches the * ThinkPad's vendor, BIOS and EC model. * * Returns 0 if nothing matches, otherwise returns the quirks field of * the matching &struct tpacpi_quirk entry. * * The match criteria is: vendor, ec and bios much match. */ static unsigned long __init tpacpi_check_quirks( const struct tpacpi_quirk *qlist, unsigned int qlist_size) { while (qlist_size) { if ((qlist->vendor == thinkpad_id.vendor || qlist->vendor == TPACPI_MATCH_ANY) && (qlist->bios == thinkpad_id.bios_model || qlist->bios == TPACPI_MATCH_ANY) && (qlist->ec == thinkpad_id.ec_model || qlist->ec == TPACPI_MATCH_ANY)) return qlist->quirks; qlist_size--; qlist++; } return 0; } static inline bool __pure __init tpacpi_is_lenovo(void) { return thinkpad_id.vendor == PCI_VENDOR_ID_LENOVO; } static inline bool __pure __init tpacpi_is_ibm(void) { return thinkpad_id.vendor == PCI_VENDOR_ID_IBM; } /**************************************************************************** **************************************************************************** * * ACPI Helpers and device model * **************************************************************************** ****************************************************************************/ /************************************************************************* * ACPI basic handles */ static acpi_handle root_handle; static acpi_handle ec_handle; #define TPACPI_HANDLE(object, parent, paths...) \ static acpi_handle object##_handle; \ static const acpi_handle * const object##_parent __initconst = \ &parent##_handle; \ static char *object##_paths[] __initdata = { paths } TPACPI_HANDLE(ecrd, ec, "ECRD"); /* 570 */ TPACPI_HANDLE(ecwr, ec, "ECWR"); /* 570 */ TPACPI_HANDLE(cmos, root, "\\UCMS", /* R50, R50e, R50p, R51, */ /* T4x, X31, X40 */ "\\CMOS", /* A3x, G4x, R32, T23, T30, X22-24, X30 */ "\\CMS", /* R40, R40e */ ); /* all others */ TPACPI_HANDLE(hkey, ec, "\\_SB.HKEY", /* 600e/x, 770e, 770x */ "^HKEY", /* R30, R31 */ "HKEY", /* all others */ ); /* 570 */ /************************************************************************* * ACPI helpers */ static int acpi_evalf(acpi_handle handle, int *res, char *method, char *fmt, ...) { char *fmt0 = fmt; struct acpi_object_list params; union acpi_object in_objs[TPACPI_MAX_ACPI_ARGS]; struct acpi_buffer result, *resultp; union acpi_object out_obj; acpi_status status; va_list ap; char res_type; int success; int quiet; if (!*fmt) { pr_err("acpi_evalf() called with empty format\n"); return 0; } if (*fmt == 'q') { quiet = 1; fmt++; } else quiet = 0; res_type = *(fmt++); params.count = 0; params.pointer = &in_objs[0]; va_start(ap, fmt); while (*fmt) { char c = *(fmt++); switch (c) { case 'd': /* int */ in_objs[params.count].integer.value = va_arg(ap, int); in_objs[params.count++].type = ACPI_TYPE_INTEGER; break; /* add more types as needed */ default: pr_err("acpi_evalf() called with invalid format character '%c'\n", c); va_end(ap); return 0; } } va_end(ap); if (res_type != 'v') { result.length = sizeof(out_obj); result.pointer = &out_obj; resultp = &result; } else resultp = NULL; status = acpi_evaluate_object(handle, method, ¶ms, resultp); switch (res_type) { case 'd': /* int */ success = (status == AE_OK && out_obj.type == ACPI_TYPE_INTEGER); if (success && res) *res = out_obj.integer.value; break; case 'v': /* void */ success = status == AE_OK; break; /* add more types as needed */ default: pr_err("acpi_evalf() called with invalid format character '%c'\n", res_type); return 0; } if (!success && !quiet) pr_err("acpi_evalf(%s, %s, ...) failed: %s\n", method, fmt0, acpi_format_exception(status)); return success; } static int acpi_ec_read(int i, u8 *p) { int v; if (ecrd_handle) { if (!acpi_evalf(ecrd_handle, &v, NULL, "dd", i)) return 0; *p = v; } else { if (ec_read(i, p) < 0) return 0; } return 1; } static int acpi_ec_write(int i, u8 v) { if (ecwr_handle) { if (!acpi_evalf(ecwr_handle, NULL, NULL, "vdd", i, v)) return 0; } else { if (ec_write(i, v) < 0) return 0; } return 1; } static int issue_thinkpad_cmos_command(int cmos_cmd) { if (!cmos_handle) return -ENXIO; if (!acpi_evalf(cmos_handle, NULL, NULL, "vd", cmos_cmd)) return -EIO; return 0; } /************************************************************************* * ACPI device model */ #define TPACPI_ACPIHANDLE_INIT(object) \ drv_acpi_handle_init(#object, &object##_handle, *object##_parent, \ object##_paths, ARRAY_SIZE(object##_paths)) static void __init drv_acpi_handle_init(const char *name, acpi_handle *handle, const acpi_handle parent, char **paths, const int num_paths) { int i; acpi_status status; vdbg_printk(TPACPI_DBG_INIT, "trying to locate ACPI handle for %s\n", name); for (i = 0; i < num_paths; i++) { status = acpi_get_handle(parent, paths[i], handle); if (ACPI_SUCCESS(status)) { dbg_printk(TPACPI_DBG_INIT, "Found ACPI handle %s for %s\n", paths[i], name); return; } } vdbg_printk(TPACPI_DBG_INIT, "ACPI handle for %s not found\n", name); *handle = NULL; } static acpi_status __init tpacpi_acpi_handle_locate_callback(acpi_handle handle, u32 level, void *context, void **return_value) { if (!strcmp(context, "video")) { struct acpi_device *dev = acpi_fetch_acpi_dev(handle); if (!dev || strcmp(ACPI_VIDEO_HID, acpi_device_hid(dev))) return AE_OK; } *(acpi_handle *)return_value = handle; return AE_CTRL_TERMINATE; } static void __init tpacpi_acpi_handle_locate(const char *name, const char *hid, acpi_handle *handle) { acpi_status status; acpi_handle device_found; BUG_ON(!name || !handle); vdbg_printk(TPACPI_DBG_INIT, "trying to locate ACPI handle for %s, using HID %s\n", name, hid ? hid : "NULL"); memset(&device_found, 0, sizeof(device_found)); status = acpi_get_devices(hid, tpacpi_acpi_handle_locate_callback, (void *)name, &device_found); *handle = NULL; if (ACPI_SUCCESS(status)) { *handle = device_found; dbg_printk(TPACPI_DBG_INIT, "Found ACPI handle for %s\n", name); } else { vdbg_printk(TPACPI_DBG_INIT, "Could not locate an ACPI handle for %s: %s\n", name, acpi_format_exception(status)); } } static void dispatch_acpi_notify(acpi_handle handle, u32 event, void *data) { struct ibm_struct *ibm = data; if (tpacpi_lifecycle != TPACPI_LIFE_RUNNING) return; if (!ibm || !ibm->acpi || !ibm->acpi->notify) return; ibm->acpi->notify(ibm, event); } static int __init setup_acpi_notify(struct ibm_struct *ibm) { acpi_status status; BUG_ON(!ibm->acpi); if (!*ibm->acpi->handle) return 0; vdbg_printk(TPACPI_DBG_INIT, "setting up ACPI notify for %s\n", ibm->name); ibm->acpi->device = acpi_fetch_acpi_dev(*ibm->acpi->handle); if (!ibm->acpi->device) { pr_err("acpi_fetch_acpi_dev(%s) failed\n", ibm->name); return -ENODEV; } ibm->acpi->device->driver_data = ibm; sprintf(acpi_device_class(ibm->acpi->device), "%s/%s", TPACPI_ACPI_EVENT_PREFIX, ibm->name); status = acpi_install_notify_handler(*ibm->acpi->handle, ibm->acpi->type, dispatch_acpi_notify, ibm); if (ACPI_FAILURE(status)) { if (status == AE_ALREADY_EXISTS) { pr_notice("another device driver is already handling %s events\n", ibm->name); } else { pr_err("acpi_install_notify_handler(%s) failed: %s\n", ibm->name, acpi_format_exception(status)); } return -ENODEV; } ibm->flags.acpi_notify_installed = 1; return 0; } static int __init tpacpi_device_add(struct acpi_device *device) { return 0; } static int __init register_tpacpi_subdriver(struct ibm_struct *ibm) { int rc; dbg_printk(TPACPI_DBG_INIT, "registering %s as an ACPI driver\n", ibm->name); BUG_ON(!ibm->acpi); ibm->acpi->driver = kzalloc(sizeof(struct acpi_driver), GFP_KERNEL); if (!ibm->acpi->driver) { pr_err("failed to allocate memory for ibm->acpi->driver\n"); return -ENOMEM; } sprintf(ibm->acpi->driver->name, "%s_%s", TPACPI_NAME, ibm->name); ibm->acpi->driver->ids = ibm->acpi->hid; ibm->acpi->driver->ops.add = &tpacpi_device_add; rc = acpi_bus_register_driver(ibm->acpi->driver); if (rc < 0) { pr_err("acpi_bus_register_driver(%s) failed: %d\n", ibm->name, rc); kfree(ibm->acpi->driver); ibm->acpi->driver = NULL; } else if (!rc) ibm->flags.acpi_driver_registered = 1; return rc; } /**************************************************************************** **************************************************************************** * * Procfs Helpers * **************************************************************************** ****************************************************************************/ static int dispatch_proc_show(struct seq_file *m, void *v) { struct ibm_struct *ibm = m->private; if (!ibm || !ibm->read) return -EINVAL; return ibm->read(m); } static int dispatch_proc_open(struct inode *inode, struct file *file) { return single_open(file, dispatch_proc_show, pde_data(inode)); } static ssize_t dispatch_proc_write(struct file *file, const char __user *userbuf, size_t count, loff_t *pos) { struct ibm_struct *ibm = pde_data(file_inode(file)); char *kernbuf; int ret; if (!ibm || !ibm->write) return -EINVAL; if (count > PAGE_SIZE - 1) return -EINVAL; kernbuf = kmalloc(count + 1, GFP_KERNEL); if (!kernbuf) return -ENOMEM; if (copy_from_user(kernbuf, userbuf, count)) { kfree(kernbuf); return -EFAULT; } kernbuf[count] = 0; ret = ibm->write(kernbuf); if (ret == 0) ret = count; kfree(kernbuf); return ret; } static const struct proc_ops dispatch_proc_ops = { .proc_open = dispatch_proc_open, .proc_read = seq_read, .proc_lseek = seq_lseek, .proc_release = single_release, .proc_write = dispatch_proc_write, }; /**************************************************************************** **************************************************************************** * * Device model: input, hwmon and platform * **************************************************************************** ****************************************************************************/ static struct platform_device *tpacpi_pdev; static struct platform_device *tpacpi_sensors_pdev; static struct device *tpacpi_hwmon; static struct input_dev *tpacpi_inputdev; static struct mutex tpacpi_inputdev_send_mutex; static LIST_HEAD(tpacpi_all_drivers); #ifdef CONFIG_PM_SLEEP static int tpacpi_suspend_handler(struct device *dev) { struct ibm_struct *ibm, *itmp; list_for_each_entry_safe(ibm, itmp, &tpacpi_all_drivers, all_drivers) { if (ibm->suspend) (ibm->suspend)(); } return 0; } static int tpacpi_resume_handler(struct device *dev) { struct ibm_struct *ibm, *itmp; list_for_each_entry_safe(ibm, itmp, &tpacpi_all_drivers, all_drivers) { if (ibm->resume) (ibm->resume)(); } return 0; } #endif static SIMPLE_DEV_PM_OPS(tpacpi_pm, tpacpi_suspend_handler, tpacpi_resume_handler); static void tpacpi_shutdown_handler(struct platform_device *pdev) { struct ibm_struct *ibm, *itmp; list_for_each_entry_safe(ibm, itmp, &tpacpi_all_drivers, all_drivers) { if (ibm->shutdown) (ibm->shutdown)(); } } /************************************************************************* * sysfs support helpers */ static int parse_strtoul(const char *buf, unsigned long max, unsigned long *value) { char *endp; *value = simple_strtoul(skip_spaces(buf), &endp, 0); endp = skip_spaces(endp); if (*endp || *value > max) return -EINVAL; return 0; } static void tpacpi_disable_brightness_delay(void) { if (acpi_evalf(hkey_handle, NULL, "PWMS", "qvd", 0)) pr_notice("ACPI backlight control delay disabled\n"); } static void printk_deprecated_attribute(const char * const what, const char * const details) { tpacpi_log_usertask("deprecated sysfs attribute"); pr_warn("WARNING: sysfs attribute %s is deprecated and will be removed. %s\n", what, details); } /************************************************************************* * rfkill and radio control support helpers */ /* * ThinkPad-ACPI firmware handling model: * * WLSW (master wireless switch) is event-driven, and is common to all * firmware-controlled radios. It cannot be controlled, just monitored, * as expected. It overrides all radio state in firmware * * The kernel, a masked-off hotkey, and WLSW can change the radio state * (TODO: verify how WLSW interacts with the returned radio state). * * The only time there are shadow radio state changes, is when * masked-off hotkeys are used. */ /* * Internal driver API for radio state: * * int: < 0 = error, otherwise enum tpacpi_rfkill_state * bool: true means radio blocked (off) */ enum tpacpi_rfkill_state { TPACPI_RFK_RADIO_OFF = 0, TPACPI_RFK_RADIO_ON }; /* rfkill switches */ enum tpacpi_rfk_id { TPACPI_RFK_BLUETOOTH_SW_ID = 0, TPACPI_RFK_WWAN_SW_ID, TPACPI_RFK_UWB_SW_ID, TPACPI_RFK_SW_MAX }; static const char *tpacpi_rfkill_names[] = { [TPACPI_RFK_BLUETOOTH_SW_ID] = "bluetooth", [TPACPI_RFK_WWAN_SW_ID] = "wwan", [TPACPI_RFK_UWB_SW_ID] = "uwb", [TPACPI_RFK_SW_MAX] = NULL }; /* ThinkPad-ACPI rfkill subdriver */ struct tpacpi_rfk { struct rfkill *rfkill; enum tpacpi_rfk_id id; const struct tpacpi_rfk_ops *ops; }; struct tpacpi_rfk_ops { /* firmware interface */ int (*get_status)(void); int (*set_status)(const enum tpacpi_rfkill_state); }; static struct tpacpi_rfk *tpacpi_rfkill_switches[TPACPI_RFK_SW_MAX]; /* Query FW and update rfkill sw state for a given rfkill switch */ static int tpacpi_rfk_update_swstate(const struct tpacpi_rfk *tp_rfk) { int status; if (!tp_rfk) return -ENODEV; status = (tp_rfk->ops->get_status)(); if (status < 0) return status; rfkill_set_sw_state(tp_rfk->rfkill, (status == TPACPI_RFK_RADIO_OFF)); return status; } /* * Sync the HW-blocking state of all rfkill switches, * do notice it causes the rfkill core to schedule uevents */ static void tpacpi_rfk_update_hwblock_state(bool blocked) { unsigned int i; struct tpacpi_rfk *tp_rfk; for (i = 0; i < TPACPI_RFK_SW_MAX; i++) { tp_rfk = tpacpi_rfkill_switches[i]; if (tp_rfk) { if (rfkill_set_hw_state(tp_rfk->rfkill, blocked)) { /* ignore -- we track sw block */ } } } } /* Call to get the WLSW state from the firmware */ static int hotkey_get_wlsw(void); /* Call to query WLSW state and update all rfkill switches */ static bool tpacpi_rfk_check_hwblock_state(void) { int res = hotkey_get_wlsw(); int hw_blocked; /* When unknown or unsupported, we have to assume it is unblocked */ if (res < 0) return false; hw_blocked = (res == TPACPI_RFK_RADIO_OFF); tpacpi_rfk_update_hwblock_state(hw_blocked); return hw_blocked; } static int tpacpi_rfk_hook_set_block(void *data, bool blocked) { struct tpacpi_rfk *tp_rfk = data; int res; dbg_printk(TPACPI_DBG_RFKILL, "request to change radio state to %s\n", blocked ? "blocked" : "unblocked"); /* try to set radio state */ res = (tp_rfk->ops->set_status)(blocked ? TPACPI_RFK_RADIO_OFF : TPACPI_RFK_RADIO_ON); /* and update the rfkill core with whatever the FW really did */ tpacpi_rfk_update_swstate(tp_rfk); return (res < 0) ? res : 0; } static const struct rfkill_ops tpacpi_rfk_rfkill_ops = { .set_block = tpacpi_rfk_hook_set_block, }; static int __init tpacpi_new_rfkill(const enum tpacpi_rfk_id id, const struct tpacpi_rfk_ops *tp_rfkops, const enum rfkill_type rfktype, const char *name, const bool set_default) { struct tpacpi_rfk *atp_rfk; int res; bool sw_state = false; bool hw_state; int sw_status; BUG_ON(id >= TPACPI_RFK_SW_MAX || tpacpi_rfkill_switches[id]); atp_rfk = kzalloc(sizeof(struct tpacpi_rfk), GFP_KERNEL); if (atp_rfk) atp_rfk->rfkill = rfkill_alloc(name, &tpacpi_pdev->dev, rfktype, &tpacpi_rfk_rfkill_ops, atp_rfk); if (!atp_rfk || !atp_rfk->rfkill) { pr_err("failed to allocate memory for rfkill class\n"); kfree(atp_rfk); return -ENOMEM; } atp_rfk->id = id; atp_rfk->ops = tp_rfkops; sw_status = (tp_rfkops->get_status)(); if (sw_status < 0) { pr_err("failed to read initial state for %s, error %d\n", name, sw_status); } else { sw_state = (sw_status == TPACPI_RFK_RADIO_OFF); if (set_default) { /* try to keep the initial state, since we ask the * firmware to preserve it across S5 in NVRAM */ rfkill_init_sw_state(atp_rfk->rfkill, sw_state); } } hw_state = tpacpi_rfk_check_hwblock_state(); rfkill_set_hw_state(atp_rfk->rfkill, hw_state); res = rfkill_register(atp_rfk->rfkill); if (res < 0) { pr_err("failed to register %s rfkill switch: %d\n", name, res); rfkill_destroy(atp_rfk->rfkill); kfree(atp_rfk); return res; } tpacpi_rfkill_switches[id] = atp_rfk; pr_info("rfkill switch %s: radio is %sblocked\n", name, (sw_state || hw_state) ? "" : "un"); return 0; } static void tpacpi_destroy_rfkill(const enum tpacpi_rfk_id id) { struct tpacpi_rfk *tp_rfk; BUG_ON(id >= TPACPI_RFK_SW_MAX); tp_rfk = tpacpi_rfkill_switches[id]; if (tp_rfk) { rfkill_unregister(tp_rfk->rfkill); rfkill_destroy(tp_rfk->rfkill); tpacpi_rfkill_switches[id] = NULL; kfree(tp_rfk); } } static void printk_deprecated_rfkill_attribute(const char * const what) { printk_deprecated_attribute(what, "Please switch to generic rfkill before year 2010"); } /* sysfs <radio> enable ------------------------------------------------ */ static ssize_t tpacpi_rfk_sysfs_enable_show(const enum tpacpi_rfk_id id, struct device_attribute *attr, char *buf) { int status; printk_deprecated_rfkill_attribute(attr->attr.name); /* This is in the ABI... */ if (tpacpi_rfk_check_hwblock_state()) { status = TPACPI_RFK_RADIO_OFF; } else { status = tpacpi_rfk_update_swstate(tpacpi_rfkill_switches[id]); if (status < 0) return status; } return sysfs_emit(buf, "%d\n", (status == TPACPI_RFK_RADIO_ON) ? 1 : 0); } static ssize_t tpacpi_rfk_sysfs_enable_store(const enum tpacpi_rfk_id id, struct device_attribute *attr, const char *buf, size_t count) { unsigned long t; int res; printk_deprecated_rfkill_attribute(attr->attr.name); if (parse_strtoul(buf, 1, &t)) return -EINVAL; tpacpi_disclose_usertask(attr->attr.name, "set to %ld\n", t); /* This is in the ABI... */ if (tpacpi_rfk_check_hwblock_state() && !!t) return -EPERM; res = tpacpi_rfkill_switches[id]->ops->set_status((!!t) ? TPACPI_RFK_RADIO_ON : TPACPI_RFK_RADIO_OFF); tpacpi_rfk_update_swstate(tpacpi_rfkill_switches[id]); return (res < 0) ? res : count; } /* procfs -------------------------------------------------------------- */ static int tpacpi_rfk_procfs_read(const enum tpacpi_rfk_id id, struct seq_file *m) { if (id >= TPACPI_RFK_SW_MAX) seq_printf(m, "status:\t\tnot supported\n"); else { int status; /* This is in the ABI... */ if (tpacpi_rfk_check_hwblock_state()) { status = TPACPI_RFK_RADIO_OFF; } else { status = tpacpi_rfk_update_swstate( tpacpi_rfkill_switches[id]); if (status < 0) return status; } seq_printf(m, "status:\t\t%s\n", str_enabled_disabled(status == TPACPI_RFK_RADIO_ON)); seq_printf(m, "commands:\tenable, disable\n"); } return 0; } static int tpacpi_rfk_procfs_write(const enum tpacpi_rfk_id id, char *buf) { char *cmd; int status = -1; int res = 0; if (id >= TPACPI_RFK_SW_MAX) return -ENODEV; while ((cmd = strsep(&buf, ","))) { if (strstarts(cmd, "enable")) status = TPACPI_RFK_RADIO_ON; else if (strstarts(cmd, "disable")) status = TPACPI_RFK_RADIO_OFF; else return -EINVAL; } if (status != -1) { tpacpi_disclose_usertask("procfs", "attempt to %s %s\n", str_enable_disable(status == TPACPI_RFK_RADIO_ON), tpacpi_rfkill_names[id]); res = (tpacpi_rfkill_switches[id]->ops->set_status)(status); tpacpi_rfk_update_swstate(tpacpi_rfkill_switches[id]); } return res; } /************************************************************************* * thinkpad-acpi driver attributes */ /* interface_version --------------------------------------------------- */ static ssize_t interface_version_show(struct device_driver *drv, char *buf) { return sysfs_emit(buf, "0x%08x\n", TPACPI_SYSFS_VERSION); } static DRIVER_ATTR_RO(interface_version); /* debug_level --------------------------------------------------------- */ static ssize_t debug_level_show(struct device_driver *drv, char *buf) { return sysfs_emit(buf, "0x%04x\n", dbg_level); } static ssize_t debug_level_store(struct device_driver *drv, const char *buf, size_t count) { unsigned long t; if (parse_strtoul(buf, 0xffff, &t)) return -EINVAL; dbg_level = t; return count; } static DRIVER_ATTR_RW(debug_level); /* version ------------------------------------------------------------- */ static ssize_t version_show(struct device_driver *drv, char *buf) { return sysfs_emit(buf, "%s v%s\n", TPACPI_DESC, TPACPI_VERSION); } static DRIVER_ATTR_RO(version); /* --------------------------------------------------------------------- */ #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES /* wlsw_emulstate ------------------------------------------------------ */ static ssize_t wlsw_emulstate_show(struct device_driver *drv, char *buf) { return sysfs_emit(buf, "%d\n", !!tpacpi_wlsw_emulstate); } static ssize_t wlsw_emulstate_store(struct device_driver *drv, const char *buf, size_t count) { unsigned long t; if (parse_strtoul(buf, 1, &t)) return -EINVAL; if (tpacpi_wlsw_emulstate != !!t) { tpacpi_wlsw_emulstate = !!t; tpacpi_rfk_update_hwblock_state(!t); /* negative logic */ } return count; } static DRIVER_ATTR_RW(wlsw_emulstate); /* bluetooth_emulstate ------------------------------------------------- */ static ssize_t bluetooth_emulstate_show(struct device_driver *drv, char *buf) { return sysfs_emit(buf, "%d\n", !!tpacpi_bluetooth_emulstate); } static ssize_t bluetooth_emulstate_store(struct device_driver *drv, const char *buf, size_t count) { unsigned long t; if (parse_strtoul(buf, 1, &t)) return -EINVAL; tpacpi_bluetooth_emulstate = !!t; return count; } static DRIVER_ATTR_RW(bluetooth_emulstate); /* wwan_emulstate ------------------------------------------------- */ static ssize_t wwan_emulstate_show(struct device_driver *drv, char *buf) { return sysfs_emit(buf, "%d\n", !!tpacpi_wwan_emulstate); } static ssize_t wwan_emulstate_store(struct device_driver *drv, const char *buf, size_t count) { unsigned long t; if (parse_strtoul(buf, 1, &t)) return -EINVAL; tpacpi_wwan_emulstate = !!t; return count; } static DRIVER_ATTR_RW(wwan_emulstate); /* uwb_emulstate ------------------------------------------------- */ static ssize_t uwb_emulstate_show(struct device_driver *drv, char *buf) { return sysfs_emit(buf, "%d\n", !!tpacpi_uwb_emulstate); } static ssize_t uwb_emulstate_store(struct device_driver *drv, const char *buf, size_t count) { unsigned long t; if (parse_strtoul(buf, 1, &t)) return -EINVAL; tpacpi_uwb_emulstate = !!t; return count; } static DRIVER_ATTR_RW(uwb_emulstate); #endif /************************************************************************* * Firmware Data */ /* * Table of recommended minimum BIOS versions * * Reasons for listing: * 1. Stable BIOS, listed because the unknown amount of * bugs and bad ACPI behaviour on older versions * * 2. BIOS or EC fw with known bugs that trigger on Linux * * 3. BIOS with known reduced functionality in older versions * * We recommend the latest BIOS and EC version. * We only support the latest BIOS and EC fw version as a rule. * * Sources: IBM ThinkPad Public Web Documents (update changelogs), * Information from users in ThinkWiki * * WARNING: we use this table also to detect that the machine is * a ThinkPad in some cases, so don't remove entries lightly. */ #define TPV_Q(__v, __id1, __id2, __bv1, __bv2) \ { .vendor = (__v), \ .bios = TPID(__id1, __id2), \ .ec = TPACPI_MATCH_ANY, \ .quirks = TPACPI_MATCH_ANY_VERSION << 16 \ | TPVER(__bv1, __bv2) } #define TPV_Q_X(__v, __bid1, __bid2, __bv1, __bv2, \ __eid, __ev1, __ev2) \ { .vendor = (__v), \ .bios = TPID(__bid1, __bid2), \ .ec = __eid, \ .quirks = TPVER(__ev1, __ev2) << 16 \ | TPVER(__bv1, __bv2) } #define TPV_QI0(__id1, __id2, __bv1, __bv2) \ TPV_Q(PCI_VENDOR_ID_IBM, __id1, __id2, __bv1, __bv2) /* Outdated IBM BIOSes often lack the EC id string */ #define TPV_QI1(__id1, __id2, __bv1, __bv2, __ev1, __ev2) \ TPV_Q_X(PCI_VENDOR_ID_IBM, __id1, __id2, \ __bv1, __bv2, TPID(__id1, __id2), \ __ev1, __ev2), \ TPV_Q_X(PCI_VENDOR_ID_IBM, __id1, __id2, \ __bv1, __bv2, TPACPI_MATCH_UNKNOWN, \ __ev1, __ev2) /* Outdated IBM BIOSes often lack the EC id string */ #define TPV_QI2(__bid1, __bid2, __bv1, __bv2, \ __eid1, __eid2, __ev1, __ev2) \ TPV_Q_X(PCI_VENDOR_ID_IBM, __bid1, __bid2, \ __bv1, __bv2, TPID(__eid1, __eid2), \ __ev1, __ev2), \ TPV_Q_X(PCI_VENDOR_ID_IBM, __bid1, __bid2, \ __bv1, __bv2, TPACPI_MATCH_UNKNOWN, \ __ev1, __ev2) #define TPV_QL0(__id1, __id2, __bv1, __bv2) \ TPV_Q(PCI_VENDOR_ID_LENOVO, __id1, __id2, __bv1, __bv2) #define TPV_QL1(__id1, __id2, __bv1, __bv2, __ev1, __ev2) \ TPV_Q_X(PCI_VENDOR_ID_LENOVO, __id1, __id2, \ __bv1, __bv2, TPID(__id1, __id2), \ __ev1, __ev2) #define TPV_QL2(__bid1, __bid2, __bv1, __bv2, \ __eid1, __eid2, __ev1, __ev2) \ TPV_Q_X(PCI_VENDOR_ID_LENOVO, __bid1, __bid2, \ __bv1, __bv2, TPID(__eid1, __eid2), \ __ev1, __ev2) static const struct tpacpi_quirk tpacpi_bios_version_qtable[] __initconst = { /* Numeric models ------------------ */ /* FW MODEL BIOS VERS */ TPV_QI0('I', 'M', '6', '5'), /* 570 */ TPV_QI0('I', 'U', '2', '6'), /* 570E */ TPV_QI0('I', 'B', '5', '4'), /* 600 */ TPV_QI0('I', 'H', '4', '7'), /* 600E */ TPV_QI0('I', 'N', '3', '6'), /* 600E */ TPV_QI0('I', 'T', '5', '5'), /* 600X */ TPV_QI0('I', 'D', '4', '8'), /* 770, 770E, 770ED */ TPV_QI0('I', 'I', '4', '2'), /* 770X */ TPV_QI0('I', 'O', '2', '3'), /* 770Z */ /* A-series ------------------------- */ /* FW MODEL BIOS VERS EC VERS */ TPV_QI0('I', 'W', '5', '9'), /* A20m */ TPV_QI0('I', 'V', '6', '9'), /* A20p */ TPV_QI0('1', '0', '2', '6'), /* A21e, A22e */ TPV_QI0('K', 'U', '3', '6'), /* A21e */ TPV_QI0('K', 'X', '3', '6'), /* A21m, A22m */ TPV_QI0('K', 'Y', '3', '8'), /* A21p, A22p */ TPV_QI0('1', 'B', '1', '7'), /* A22e */ TPV_QI0('1', '3', '2', '0'), /* A22m */ TPV_QI0('1', 'E', '7', '3'), /* A30/p (0) */ TPV_QI1('1', 'G', '4', '1', '1', '7'), /* A31/p (0) */ TPV_QI1('1', 'N', '1', '6', '0', '7'), /* A31/p (0) */ /* G-series ------------------------- */ /* FW MODEL BIOS VERS */ TPV_QI0('1', 'T', 'A', '6'), /* G40 */ TPV_QI0('1', 'X', '5', '7'), /* G41 */ /* R-series, T-series --------------- */ /* FW MODEL BIOS VERS EC VERS */ TPV_QI0('1', 'C', 'F', '0'), /* R30 */ TPV_QI0('1', 'F', 'F', '1'), /* R31 */ TPV_QI0('1', 'M', '9', '7'), /* R32 */ TPV_QI0('1', 'O', '6', '1'), /* R40 */ TPV_QI0('1', 'P', '6', '5'), /* R40 */ TPV_QI0('1', 'S', '7', '0'), /* R40e */ TPV_QI1('1', 'R', 'D', 'R', '7', '1'), /* R50/p, R51, T40/p, T41/p, T42/p (1) */ TPV_QI1('1', 'V', '7', '1', '2', '8'), /* R50e, R51 (1) */ TPV_QI1('7', '8', '7', '1', '0', '6'), /* R51e (1) */ TPV_QI1('7', '6', '6', '9', '1', '6'), /* R52 (1) */ TPV_QI1('7', '0', '6', '9', '2', '8'), /* R52, T43 (1) */ TPV_QI0('I', 'Y', '6', '1'), /* T20 */ TPV_QI0('K', 'Z', '3', '4'), /* T21 */ TPV_QI0('1', '6', '3', '2'), /* T22 */ TPV_QI1('1', 'A', '6', '4', '2', '3'), /* T23 (0) */ TPV_QI1('1', 'I', '7', '1', '2', '0'), /* T30 (0) */ TPV_QI1('1', 'Y', '6', '5', '2', '9'), /* T43/p (1) */ TPV_QL1('7', '9', 'E', '3', '5', '0'), /* T60/p */ TPV_QL1('7', 'C', 'D', '2', '2', '2'), /* R60, R60i */ TPV_QL1('7', 'E', 'D', '0', '1', '5'), /* R60e, R60i */ /* BIOS FW BIOS VERS EC FW EC VERS */ TPV_QI2('1', 'W', '9', '0', '1', 'V', '2', '8'), /* R50e (1) */ TPV_QL2('7', 'I', '3', '4', '7', '9', '5', '0'), /* T60/p wide */ /* X-series ------------------------- */ /* FW MODEL BIOS VERS EC VERS */ TPV_QI0('I', 'Z', '9', 'D'), /* X20, X21 */ TPV_QI0('1', 'D', '7', '0'), /* X22, X23, X24 */ TPV_QI1('1', 'K', '4', '8', '1', '8'), /* X30 (0) */ TPV_QI1('1', 'Q', '9', '7', '2', '3'), /* X31, X32 (0) */ TPV_QI1('1', 'U', 'D', '3', 'B', '2'), /* X40 (0) */ TPV_QI1('7', '4', '6', '4', '2', '7'), /* X41 (0) */ TPV_QI1('7', '5', '6', '0', '2', '0'), /* X41t (0) */ TPV_QL1('7', 'B', 'D', '7', '4', '0'), /* X60/s */ TPV_QL1('7', 'J', '3', '0', '1', '3'), /* X60t */ /* (0) - older versions lack DMI EC fw string and functionality */ /* (1) - older versions known to lack functionality */ }; #undef TPV_QL1 #undef TPV_QL0 #undef TPV_QI2 #undef TPV_QI1 #undef TPV_QI0 #undef TPV_Q_X #undef TPV_Q static void __init tpacpi_check_outdated_fw(void) { unsigned long fwvers; u16 ec_version, bios_version; fwvers = tpacpi_check_quirks(tpacpi_bios_version_qtable, ARRAY_SIZE(tpacpi_bios_version_qtable)); if (!fwvers) return; bios_version = fwvers & 0xffffU; ec_version = (fwvers >> 16) & 0xffffU; /* note that unknown versions are set to 0x0000 and we use that */ if ((bios_version > thinkpad_id.bios_release) || (ec_version > thinkpad_id.ec_release && ec_version != TPACPI_MATCH_ANY_VERSION)) { /* * The changelogs would let us track down the exact * reason, but it is just too much of a pain to track * it. We only list BIOSes that are either really * broken, or really stable to begin with, so it is * best if the user upgrades the firmware anyway. */ pr_warn("WARNING: Outdated ThinkPad BIOS/EC firmware\n"); pr_warn("WARNING: This firmware may be missing critical bug fixes and/or important features\n"); } } static bool __init tpacpi_is_fw_known(void) { return tpacpi_check_quirks(tpacpi_bios_version_qtable, ARRAY_SIZE(tpacpi_bios_version_qtable)) != 0; } /**************************************************************************** **************************************************************************** * * Subdrivers * **************************************************************************** ****************************************************************************/ /************************************************************************* * thinkpad-acpi metadata subdriver */ static int thinkpad_acpi_driver_read(struct seq_file *m) { seq_printf(m, "driver:\t\t%s\n", TPACPI_DESC); seq_printf(m, "version:\t%s\n", TPACPI_VERSION); return 0; } static struct ibm_struct thinkpad_acpi_driver_data = { .name = "driver", .read = thinkpad_acpi_driver_read, }; /************************************************************************* * Hotkey subdriver */ /* * ThinkPad firmware event model * * The ThinkPad firmware has two main event interfaces: normal ACPI * notifications (which follow the ACPI standard), and a private event * interface. * * The private event interface also issues events for the hotkeys. As * the driver gained features, the event handling code ended up being * built around the hotkey subdriver. This will need to be refactored * to a more formal event API eventually. * * Some "hotkeys" are actually supposed to be used as event reports, * such as "brightness has changed", "volume has changed", depending on * the ThinkPad model and how the firmware is operating. * * Unlike other classes, hotkey-class events have mask/unmask control on * non-ancient firmware. However, how it behaves changes a lot with the * firmware model and version. */ enum { /* hot key scan codes (derived from ACPI DSDT) */ TP_ACPI_HOTKEYSCAN_FNF1 = 0, TP_ACPI_HOTKEYSCAN_FNF2, TP_ACPI_HOTKEYSCAN_FNF3, TP_ACPI_HOTKEYSCAN_FNF4, TP_ACPI_HOTKEYSCAN_FNF5, TP_ACPI_HOTKEYSCAN_FNF6, TP_ACPI_HOTKEYSCAN_FNF7, TP_ACPI_HOTKEYSCAN_FNF8, TP_ACPI_HOTKEYSCAN_FNF9, TP_ACPI_HOTKEYSCAN_FNF10, TP_ACPI_HOTKEYSCAN_FNF11, TP_ACPI_HOTKEYSCAN_FNF12, TP_ACPI_HOTKEYSCAN_FNBACKSPACE, TP_ACPI_HOTKEYSCAN_FNINSERT, TP_ACPI_HOTKEYSCAN_FNDELETE, TP_ACPI_HOTKEYSCAN_FNHOME, TP_ACPI_HOTKEYSCAN_FNEND, TP_ACPI_HOTKEYSCAN_FNPAGEUP, TP_ACPI_HOTKEYSCAN_FNPAGEDOWN, TP_ACPI_HOTKEYSCAN_FNSPACE, TP_ACPI_HOTKEYSCAN_VOLUMEUP, TP_ACPI_HOTKEYSCAN_VOLUMEDOWN, TP_ACPI_HOTKEYSCAN_MUTE, TP_ACPI_HOTKEYSCAN_THINKPAD, TP_ACPI_HOTKEYSCAN_UNK1, TP_ACPI_HOTKEYSCAN_UNK2, TP_ACPI_HOTKEYSCAN_UNK3, TP_ACPI_HOTKEYSCAN_UNK4, TP_ACPI_HOTKEYSCAN_UNK5, TP_ACPI_HOTKEYSCAN_UNK6, TP_ACPI_HOTKEYSCAN_UNK7, TP_ACPI_HOTKEYSCAN_UNK8, /* Adaptive keyboard keycodes */ TP_ACPI_HOTKEYSCAN_ADAPTIVE_START, TP_ACPI_HOTKEYSCAN_MUTE2 = TP_ACPI_HOTKEYSCAN_ADAPTIVE_START, TP_ACPI_HOTKEYSCAN_BRIGHTNESS_ZERO, TP_ACPI_HOTKEYSCAN_CLIPPING_TOOL, TP_ACPI_HOTKEYSCAN_CLOUD, TP_ACPI_HOTKEYSCAN_UNK9, TP_ACPI_HOTKEYSCAN_VOICE, TP_ACPI_HOTKEYSCAN_UNK10, TP_ACPI_HOTKEYSCAN_GESTURES, TP_ACPI_HOTKEYSCAN_UNK11, TP_ACPI_HOTKEYSCAN_UNK12, TP_ACPI_HOTKEYSCAN_UNK13, TP_ACPI_HOTKEYSCAN_CONFIG, TP_ACPI_HOTKEYSCAN_NEW_TAB, TP_ACPI_HOTKEYSCAN_RELOAD, TP_ACPI_HOTKEYSCAN_BACK, TP_ACPI_HOTKEYSCAN_MIC_DOWN, TP_ACPI_HOTKEYSCAN_MIC_UP, TP_ACPI_HOTKEYSCAN_MIC_CANCELLATION, TP_ACPI_HOTKEYSCAN_CAMERA_MODE, TP_ACPI_HOTKEYSCAN_ROTATE_DISPLAY, /* Lenovo extended keymap, starting at 0x1300 */ TP_ACPI_HOTKEYSCAN_EXTENDED_START, /* first new observed key (star, favorites) is 0x1311 */ TP_ACPI_HOTKEYSCAN_STAR = 69, TP_ACPI_HOTKEYSCAN_CLIPPING_TOOL2, TP_ACPI_HOTKEYSCAN_CALCULATOR, TP_ACPI_HOTKEYSCAN_BLUETOOTH, TP_ACPI_HOTKEYSCAN_KEYBOARD, TP_ACPI_HOTKEYSCAN_FN_RIGHT_SHIFT, /* Used by "Lenovo Quick Clean" */ TP_ACPI_HOTKEYSCAN_NOTIFICATION_CENTER, TP_ACPI_HOTKEYSCAN_PICKUP_PHONE, TP_ACPI_HOTKEYSCAN_HANGUP_PHONE, /* Hotkey keymap size */ TPACPI_HOTKEY_MAP_LEN }; enum { /* Keys/events available through NVRAM polling */ TPACPI_HKEY_NVRAM_KNOWN_MASK = 0x00fb88c0U, TPACPI_HKEY_NVRAM_GOOD_MASK = 0x00fb8000U, }; enum { /* Positions of some of the keys in hotkey masks */ TP_ACPI_HKEY_DISPSWTCH_MASK = 1 << TP_ACPI_HOTKEYSCAN_FNF7, TP_ACPI_HKEY_DISPXPAND_MASK = 1 << TP_ACPI_HOTKEYSCAN_FNF8, TP_ACPI_HKEY_HIBERNATE_MASK = 1 << TP_ACPI_HOTKEYSCAN_FNF12, TP_ACPI_HKEY_BRGHTUP_MASK = 1 << TP_ACPI_HOTKEYSCAN_FNHOME, TP_ACPI_HKEY_BRGHTDWN_MASK = 1 << TP_ACPI_HOTKEYSCAN_FNEND, TP_ACPI_HKEY_KBD_LIGHT_MASK = 1 << TP_ACPI_HOTKEYSCAN_FNPAGEUP, TP_ACPI_HKEY_ZOOM_MASK = 1 << TP_ACPI_HOTKEYSCAN_FNSPACE, TP_ACPI_HKEY_VOLUP_MASK = 1 << TP_ACPI_HOTKEYSCAN_VOLUMEUP, TP_ACPI_HKEY_VOLDWN_MASK = 1 << TP_ACPI_HOTKEYSCAN_VOLUMEDOWN, TP_ACPI_HKEY_MUTE_MASK = 1 << TP_ACPI_HOTKEYSCAN_MUTE, TP_ACPI_HKEY_THINKPAD_MASK = 1 << TP_ACPI_HOTKEYSCAN_THINKPAD, }; enum { /* NVRAM to ACPI HKEY group map */ TP_NVRAM_HKEY_GROUP_HK2 = TP_ACPI_HKEY_THINKPAD_MASK | TP_ACPI_HKEY_ZOOM_MASK | TP_ACPI_HKEY_DISPSWTCH_MASK | TP_ACPI_HKEY_HIBERNATE_MASK, TP_NVRAM_HKEY_GROUP_BRIGHTNESS = TP_ACPI_HKEY_BRGHTUP_MASK | TP_ACPI_HKEY_BRGHTDWN_MASK, TP_NVRAM_HKEY_GROUP_VOLUME = TP_ACPI_HKEY_VOLUP_MASK | TP_ACPI_HKEY_VOLDWN_MASK | TP_ACPI_HKEY_MUTE_MASK, }; #ifdef CONFIG_THINKPAD_ACPI_HOTKEY_POLL struct tp_nvram_state { u16 thinkpad_toggle:1; u16 zoom_toggle:1; u16 display_toggle:1; u16 thinklight_toggle:1; u16 hibernate_toggle:1; u16 displayexp_toggle:1; u16 display_state:1; u16 brightness_toggle:1; u16 volume_toggle:1; u16 mute:1; u8 brightness_level; u8 volume_level; }; /* kthread for the hotkey poller */ static struct task_struct *tpacpi_hotkey_task; /* * Acquire mutex to write poller control variables as an * atomic block. * * Increment hotkey_config_change when changing them if you * want the kthread to forget old state. * * See HOTKEY_CONFIG_CRITICAL_START/HOTKEY_CONFIG_CRITICAL_END */ static struct mutex hotkey_thread_data_mutex; static unsigned int hotkey_config_change; /* * hotkey poller control variables * * Must be atomic or readers will also need to acquire mutex * * HOTKEY_CONFIG_CRITICAL_START/HOTKEY_CONFIG_CRITICAL_END * should be used only when the changes need to be taken as * a block, OR when one needs to force the kthread to forget * old state. */ static u32 hotkey_source_mask; /* bit mask 0=ACPI,1=NVRAM */ static unsigned int hotkey_poll_freq = 10; /* Hz */ #define HOTKEY_CONFIG_CRITICAL_START \ do { \ mutex_lock(&hotkey_thread_data_mutex); \ hotkey_config_change++; \ } while (0); #define HOTKEY_CONFIG_CRITICAL_END \ mutex_unlock(&hotkey_thread_data_mutex); #else /* CONFIG_THINKPAD_ACPI_HOTKEY_POLL */ #define hotkey_source_mask 0U #define HOTKEY_CONFIG_CRITICAL_START #define HOTKEY_CONFIG_CRITICAL_END #endif /* CONFIG_THINKPAD_ACPI_HOTKEY_POLL */ static struct mutex hotkey_mutex; static enum { /* Reasons for waking up */ TP_ACPI_WAKEUP_NONE = 0, /* None or unknown */ TP_ACPI_WAKEUP_BAYEJ, /* Bay ejection request */ TP_ACPI_WAKEUP_UNDOCK, /* Undock request */ } hotkey_wakeup_reason; static int hotkey_autosleep_ack; static u32 hotkey_orig_mask; /* events the BIOS had enabled */ static u32 hotkey_all_mask; /* all events supported in fw */ static u32 hotkey_adaptive_all_mask; /* all adaptive events supported in fw */ static u32 hotkey_reserved_mask; /* events better left disabled */ static u32 hotkey_driver_mask; /* events needed by the driver */ static u32 hotkey_user_mask; /* events visible to userspace */ static u32 hotkey_acpi_mask; /* events enabled in firmware */ static u16 *hotkey_keycode_map; static void tpacpi_driver_event(const unsigned int hkey_event); static void hotkey_driver_event(const unsigned int scancode); static void hotkey_poll_setup(const bool may_warn); /* HKEY.MHKG() return bits */ #define TP_HOTKEY_TABLET_MASK (1 << 3) enum { TP_ACPI_MULTI_MODE_INVALID = 0, TP_ACPI_MULTI_MODE_UNKNOWN = 1 << 0, TP_ACPI_MULTI_MODE_LAPTOP = 1 << 1, TP_ACPI_MULTI_MODE_TABLET = 1 << 2, TP_ACPI_MULTI_MODE_FLAT = 1 << 3, TP_ACPI_MULTI_MODE_STAND = 1 << 4, TP_ACPI_MULTI_MODE_TENT = 1 << 5, TP_ACPI_MULTI_MODE_STAND_TENT = 1 << 6, }; enum { /* The following modes are considered tablet mode for the purpose of * reporting the status to userspace. i.e. in all these modes it makes * sense to disable the laptop input devices such as touchpad and * keyboard. */ TP_ACPI_MULTI_MODE_TABLET_LIKE = TP_ACPI_MULTI_MODE_TABLET | TP_ACPI_MULTI_MODE_STAND | TP_ACPI_MULTI_MODE_TENT | TP_ACPI_MULTI_MODE_STAND_TENT, }; static int hotkey_get_wlsw(void) { int status; if (!tp_features.hotkey_wlsw) return -ENODEV; #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES if (dbg_wlswemul) return (tpacpi_wlsw_emulstate) ? TPACPI_RFK_RADIO_ON : TPACPI_RFK_RADIO_OFF; #endif if (!acpi_evalf(hkey_handle, &status, "WLSW", "d")) return -EIO; return (status) ? TPACPI_RFK_RADIO_ON : TPACPI_RFK_RADIO_OFF; } static int hotkey_gmms_get_tablet_mode(int s, int *has_tablet_mode) { int type = (s >> 16) & 0xffff; int value = s & 0xffff; int mode = TP_ACPI_MULTI_MODE_INVALID; int valid_modes = 0; if (has_tablet_mode) *has_tablet_mode = 0; switch (type) { case 1: valid_modes = TP_ACPI_MULTI_MODE_LAPTOP | TP_ACPI_MULTI_MODE_TABLET | TP_ACPI_MULTI_MODE_STAND_TENT; break; case 2: valid_modes = TP_ACPI_MULTI_MODE_LAPTOP | TP_ACPI_MULTI_MODE_FLAT | TP_ACPI_MULTI_MODE_TABLET | TP_ACPI_MULTI_MODE_STAND | TP_ACPI_MULTI_MODE_TENT; break; case 3: valid_modes = TP_ACPI_MULTI_MODE_LAPTOP | TP_ACPI_MULTI_MODE_FLAT; break; case 4: case 5: /* In mode 4, FLAT is not specified as a valid mode. However, * it can be seen at least on the X1 Yoga 2nd Generation. */ valid_modes = TP_ACPI_MULTI_MODE_LAPTOP | TP_ACPI_MULTI_MODE_FLAT | TP_ACPI_MULTI_MODE_TABLET | TP_ACPI_MULTI_MODE_STAND | TP_ACPI_MULTI_MODE_TENT; break; default: pr_err("Unknown multi mode status type %d with value 0x%04X, please report this to %s\n", type, value, TPACPI_MAIL); return 0; } if (has_tablet_mode && (valid_modes & TP_ACPI_MULTI_MODE_TABLET_LIKE)) *has_tablet_mode = 1; switch (value) { case 1: mode = TP_ACPI_MULTI_MODE_LAPTOP; break; case 2: mode = TP_ACPI_MULTI_MODE_FLAT; break; case 3: mode = TP_ACPI_MULTI_MODE_TABLET; break; case 4: if (type == 1) mode = TP_ACPI_MULTI_MODE_STAND_TENT; else mode = TP_ACPI_MULTI_MODE_STAND; break; case 5: mode = TP_ACPI_MULTI_MODE_TENT; break; default: if (type == 5 && value == 0xffff) { pr_warn("Multi mode status is undetected, assuming laptop\n"); return 0; } } if (!(mode & valid_modes)) { pr_err("Unknown/reserved multi mode value 0x%04X for type %d, please report this to %s\n", value, type, TPACPI_MAIL); return 0; } return !!(mode & TP_ACPI_MULTI_MODE_TABLET_LIKE); } static int hotkey_get_tablet_mode(int *status) { int s; switch (tp_features.hotkey_tablet) { case TP_HOTKEY_TABLET_USES_MHKG: if (!acpi_evalf(hkey_handle, &s, "MHKG", "d")) return -EIO; *status = ((s & TP_HOTKEY_TABLET_MASK) != 0); break; case TP_HOTKEY_TABLET_USES_GMMS: if (!acpi_evalf(hkey_handle, &s, "GMMS", "dd", 0)) return -EIO; *status = hotkey_gmms_get_tablet_mode(s, NULL); break; default: break; } return 0; } /* * Reads current event mask from firmware, and updates * hotkey_acpi_mask accordingly. Also resets any bits * from hotkey_user_mask that are unavailable to be * delivered (shadow requirement of the userspace ABI). * * Call with hotkey_mutex held */ static int hotkey_mask_get(void) { if (tp_features.hotkey_mask) { u32 m = 0; if (!acpi_evalf(hkey_handle, &m, "DHKN", "d")) return -EIO; hotkey_acpi_mask = m; } else { /* no mask support doesn't mean no event support... */ hotkey_acpi_mask = hotkey_all_mask; } /* sync userspace-visible mask */ hotkey_user_mask &= (hotkey_acpi_mask | hotkey_source_mask); return 0; } static void hotkey_mask_warn_incomplete_mask(void) { /* log only what the user can fix... */ const u32 wantedmask = hotkey_driver_mask & ~(hotkey_acpi_mask | hotkey_source_mask) & (hotkey_all_mask | TPACPI_HKEY_NVRAM_KNOWN_MASK); if (wantedmask) pr_notice("required events 0x%08x not enabled!\n", wantedmask); } /* * Set the firmware mask when supported * * Also calls hotkey_mask_get to update hotkey_acpi_mask. * * NOTE: does not set bits in hotkey_user_mask, but may reset them. * * Call with hotkey_mutex held */ static int hotkey_mask_set(u32 mask) { int i; int rc = 0; const u32 fwmask = mask & ~hotkey_source_mask; if (tp_features.hotkey_mask) { for (i = 0; i < 32; i++) { if (!acpi_evalf(hkey_handle, NULL, "MHKM", "vdd", i + 1, !!(mask & (1 << i)))) { rc = -EIO; break; } } } /* * We *must* make an inconditional call to hotkey_mask_get to * refresh hotkey_acpi_mask and update hotkey_user_mask * * Take the opportunity to also log when we cannot _enable_ * a given event. */ if (!hotkey_mask_get() && !rc && (fwmask & ~hotkey_acpi_mask)) { pr_notice("asked for hotkey mask 0x%08x, but firmware forced it to 0x%08x\n", fwmask, hotkey_acpi_mask); } if (tpacpi_lifecycle != TPACPI_LIFE_EXITING) hotkey_mask_warn_incomplete_mask(); return rc; } /* * Sets hotkey_user_mask and tries to set the firmware mask * * Call with hotkey_mutex held */ static int hotkey_user_mask_set(const u32 mask) { int rc; /* Give people a chance to notice they are doing something that * is bound to go boom on their users sooner or later */ if (!tp_warned.hotkey_mask_ff && (mask == 0xffff || mask == 0xffffff || mask == 0xffffffff)) { tp_warned.hotkey_mask_ff = 1; pr_notice("setting the hotkey mask to 0x%08x is likely not the best way to go about it\n", mask); pr_notice("please consider using the driver defaults, and refer to up-to-date thinkpad-acpi documentation\n"); } /* Try to enable what the user asked for, plus whatever we need. * this syncs everything but won't enable bits in hotkey_user_mask */ rc = hotkey_mask_set((mask | hotkey_driver_mask) & ~hotkey_source_mask); /* Enable the available bits in hotkey_user_mask */ hotkey_user_mask = mask & (hotkey_acpi_mask | hotkey_source_mask); return rc; } /* * Sets the driver hotkey mask. * * Can be called even if the hotkey subdriver is inactive */ static int tpacpi_hotkey_driver_mask_set(const u32 mask) { int rc; /* Do the right thing if hotkey_init has not been called yet */ if (!tp_features.hotkey) { hotkey_driver_mask = mask; return 0; } mutex_lock(&hotkey_mutex); HOTKEY_CONFIG_CRITICAL_START hotkey_driver_mask = mask; #ifdef CONFIG_THINKPAD_ACPI_HOTKEY_POLL hotkey_source_mask |= (mask & ~hotkey_all_mask); #endif HOTKEY_CONFIG_CRITICAL_END rc = hotkey_mask_set((hotkey_acpi_mask | hotkey_driver_mask) & ~hotkey_source_mask); hotkey_poll_setup(true); mutex_unlock(&hotkey_mutex); return rc; } static int hotkey_status_get(int *status) { if (!acpi_evalf(hkey_handle, status, "DHKC", "d")) return -EIO; return 0; } static int hotkey_status_set(bool enable) { if (!acpi_evalf(hkey_handle, NULL, "MHKC", "vd", enable ? 1 : 0)) return -EIO; return 0; } static void tpacpi_input_send_tabletsw(void) { int state; if (tp_features.hotkey_tablet && !hotkey_get_tablet_mode(&state)) { mutex_lock(&tpacpi_inputdev_send_mutex); input_report_switch(tpacpi_inputdev, SW_TABLET_MODE, !!state); input_sync(tpacpi_inputdev); mutex_unlock(&tpacpi_inputdev_send_mutex); } } /* Do NOT call without validating scancode first */ static void tpacpi_input_send_key(const unsigned int scancode) { const unsigned int keycode = hotkey_keycode_map[scancode]; if (keycode != KEY_RESERVED) { mutex_lock(&tpacpi_inputdev_send_mutex); input_event(tpacpi_inputdev, EV_MSC, MSC_SCAN, scancode); input_report_key(tpacpi_inputdev, keycode, 1); input_sync(tpacpi_inputdev); input_event(tpacpi_inputdev, EV_MSC, MSC_SCAN, scancode); input_report_key(tpacpi_inputdev, keycode, 0); input_sync(tpacpi_inputdev); mutex_unlock(&tpacpi_inputdev_send_mutex); } } /* Do NOT call without validating scancode first */ static void tpacpi_input_send_key_masked(const unsigned int scancode) { hotkey_driver_event(scancode); if (hotkey_user_mask & (1 << scancode)) tpacpi_input_send_key(scancode); } #ifdef CONFIG_THINKPAD_ACPI_HOTKEY_POLL static struct tp_acpi_drv_struct ibm_hotkey_acpidriver; /* Do NOT call without validating scancode first */ static void tpacpi_hotkey_send_key(unsigned int scancode) { tpacpi_input_send_key_masked(scancode); } static void hotkey_read_nvram(struct tp_nvram_state *n, const u32 m) { u8 d; if (m & TP_NVRAM_HKEY_GROUP_HK2) { d = nvram_read_byte(TP_NVRAM_ADDR_HK2); n->thinkpad_toggle = !!(d & TP_NVRAM_MASK_HKT_THINKPAD); n->zoom_toggle = !!(d & TP_NVRAM_MASK_HKT_ZOOM); n->display_toggle = !!(d & TP_NVRAM_MASK_HKT_DISPLAY); n->hibernate_toggle = !!(d & TP_NVRAM_MASK_HKT_HIBERNATE); } if (m & TP_ACPI_HKEY_KBD_LIGHT_MASK) { d = nvram_read_byte(TP_NVRAM_ADDR_THINKLIGHT); n->thinklight_toggle = !!(d & TP_NVRAM_MASK_THINKLIGHT); } if (m & TP_ACPI_HKEY_DISPXPAND_MASK) { d = nvram_read_byte(TP_NVRAM_ADDR_VIDEO); n->displayexp_toggle = !!(d & TP_NVRAM_MASK_HKT_DISPEXPND); } if (m & TP_NVRAM_HKEY_GROUP_BRIGHTNESS) { d = nvram_read_byte(TP_NVRAM_ADDR_BRIGHTNESS); n->brightness_level = (d & TP_NVRAM_MASK_LEVEL_BRIGHTNESS) >> TP_NVRAM_POS_LEVEL_BRIGHTNESS; n->brightness_toggle = !!(d & TP_NVRAM_MASK_HKT_BRIGHTNESS); } if (m & TP_NVRAM_HKEY_GROUP_VOLUME) { d = nvram_read_byte(TP_NVRAM_ADDR_MIXER); n->volume_level = (d & TP_NVRAM_MASK_LEVEL_VOLUME) >> TP_NVRAM_POS_LEVEL_VOLUME; n->mute = !!(d & TP_NVRAM_MASK_MUTE); n->volume_toggle = !!(d & TP_NVRAM_MASK_HKT_VOLUME); } } #define TPACPI_COMPARE_KEY(__scancode, __member) \ do { \ if ((event_mask & (1 << __scancode)) && \ oldn->__member != newn->__member) \ tpacpi_hotkey_send_key(__scancode); \ } while (0) #define TPACPI_MAY_SEND_KEY(__scancode) \ do { \ if (event_mask & (1 << __scancode)) \ tpacpi_hotkey_send_key(__scancode); \ } while (0) static void issue_volchange(const unsigned int oldvol, const unsigned int newvol, const u32 event_mask) { unsigned int i = oldvol; while (i > newvol) { TPACPI_MAY_SEND_KEY(TP_ACPI_HOTKEYSCAN_VOLUMEDOWN); i--; } while (i < newvol) { TPACPI_MAY_SEND_KEY(TP_ACPI_HOTKEYSCAN_VOLUMEUP); i++; } } static void issue_brightnesschange(const unsigned int oldbrt, const unsigned int newbrt, const u32 event_mask) { unsigned int i = oldbrt; while (i > newbrt) { TPACPI_MAY_SEND_KEY(TP_ACPI_HOTKEYSCAN_FNEND); i--; } while (i < newbrt) { TPACPI_MAY_SEND_KEY(TP_ACPI_HOTKEYSCAN_FNHOME); i++; } } static void hotkey_compare_and_issue_event(struct tp_nvram_state *oldn, struct tp_nvram_state *newn, const u32 event_mask) { TPACPI_COMPARE_KEY(TP_ACPI_HOTKEYSCAN_THINKPAD, thinkpad_toggle); TPACPI_COMPARE_KEY(TP_ACPI_HOTKEYSCAN_FNSPACE, zoom_toggle); TPACPI_COMPARE_KEY(TP_ACPI_HOTKEYSCAN_FNF7, display_toggle); TPACPI_COMPARE_KEY(TP_ACPI_HOTKEYSCAN_FNF12, hibernate_toggle); TPACPI_COMPARE_KEY(TP_ACPI_HOTKEYSCAN_FNPAGEUP, thinklight_toggle); TPACPI_COMPARE_KEY(TP_ACPI_HOTKEYSCAN_FNF8, displayexp_toggle); /* * Handle volume * * This code is supposed to duplicate the IBM firmware behaviour: * - Pressing MUTE issues mute hotkey message, even when already mute * - Pressing Volume up/down issues volume up/down hotkey messages, * even when already at maximum or minimum volume * - The act of unmuting issues volume up/down notification, * depending which key was used to unmute * * We are constrained to what the NVRAM can tell us, which is not much * and certainly not enough if more than one volume hotkey was pressed * since the last poll cycle. * * Just to make our life interesting, some newer Lenovo ThinkPads have * bugs in the BIOS and may fail to update volume_toggle properly. */ if (newn->mute) { /* muted */ if (!oldn->mute || oldn->volume_toggle != newn->volume_toggle || oldn->volume_level != newn->volume_level) { /* recently muted, or repeated mute keypress, or * multiple presses ending in mute */ issue_volchange(oldn->volume_level, newn->volume_level, event_mask); TPACPI_MAY_SEND_KEY(TP_ACPI_HOTKEYSCAN_MUTE); } } else { /* unmute */ if (oldn->mute) { /* recently unmuted, issue 'unmute' keypress */ TPACPI_MAY_SEND_KEY(TP_ACPI_HOTKEYSCAN_VOLUMEUP); } if (oldn->volume_level != newn->volume_level) { issue_volchange(oldn->volume_level, newn->volume_level, event_mask); } else if (oldn->volume_toggle != newn->volume_toggle) { /* repeated vol up/down keypress at end of scale ? */ if (newn->volume_level == 0) TPACPI_MAY_SEND_KEY(TP_ACPI_HOTKEYSCAN_VOLUMEDOWN); else if (newn->volume_level >= TP_NVRAM_LEVEL_VOLUME_MAX) TPACPI_MAY_SEND_KEY(TP_ACPI_HOTKEYSCAN_VOLUMEUP); } } /* handle brightness */ if (oldn->brightness_level != newn->brightness_level) { issue_brightnesschange(oldn->brightness_level, newn->brightness_level, event_mask); } else if (oldn->brightness_toggle != newn->brightness_toggle) { /* repeated key presses that didn't change state */ if (newn->brightness_level == 0) TPACPI_MAY_SEND_KEY(TP_ACPI_HOTKEYSCAN_FNEND); else if (newn->brightness_level >= bright_maxlvl && !tp_features.bright_unkfw) TPACPI_MAY_SEND_KEY(TP_ACPI_HOTKEYSCAN_FNHOME); } #undef TPACPI_COMPARE_KEY #undef TPACPI_MAY_SEND_KEY } /* * Polling driver * * We track all events in hotkey_source_mask all the time, since * most of them are edge-based. We only issue those requested by * hotkey_user_mask or hotkey_driver_mask, though. */ static int hotkey_kthread(void *data) { struct tp_nvram_state s[2] = { 0 }; u32 poll_mask, event_mask; unsigned int si, so; unsigned long t; unsigned int change_detector; unsigned int poll_freq; bool was_frozen; if (tpacpi_lifecycle == TPACPI_LIFE_EXITING) goto exit; set_freezable(); so = 0; si = 1; t = 0; /* Initial state for compares */ mutex_lock(&hotkey_thread_data_mutex); change_detector = hotkey_config_change; poll_mask = hotkey_source_mask; event_mask = hotkey_source_mask & (hotkey_driver_mask | hotkey_user_mask); poll_freq = hotkey_poll_freq; mutex_unlock(&hotkey_thread_data_mutex); hotkey_read_nvram(&s[so], poll_mask); while (!kthread_should_stop()) { if (t == 0) { if (likely(poll_freq)) t = 1000/poll_freq; else t = 100; /* should never happen... */ } t = msleep_interruptible(t); if (unlikely(kthread_freezable_should_stop(&was_frozen))) break; if (t > 0 && !was_frozen) continue; mutex_lock(&hotkey_thread_data_mutex); if (was_frozen || hotkey_config_change != change_detector) { /* forget old state on thaw or config change */ si = so; t = 0; change_detector = hotkey_config_change; } poll_mask = hotkey_source_mask; event_mask = hotkey_source_mask & (hotkey_driver_mask | hotkey_user_mask); poll_freq = hotkey_poll_freq; mutex_unlock(&hotkey_thread_data_mutex); if (likely(poll_mask)) { hotkey_read_nvram(&s[si], poll_mask); if (likely(si != so)) { hotkey_compare_and_issue_event(&s[so], &s[si], event_mask); } } so = si; si ^= 1; } exit: return 0; } /* call with hotkey_mutex held */ static void hotkey_poll_stop_sync(void) { if (tpacpi_hotkey_task) { kthread_stop(tpacpi_hotkey_task); tpacpi_hotkey_task = NULL; } } /* call with hotkey_mutex held */ static void hotkey_poll_setup(const bool may_warn) { const u32 poll_driver_mask = hotkey_driver_mask & hotkey_source_mask; const u32 poll_user_mask = hotkey_user_mask & hotkey_source_mask; if (hotkey_poll_freq > 0 && (poll_driver_mask || (poll_user_mask && tpacpi_inputdev->users > 0))) { if (!tpacpi_hotkey_task) { tpacpi_hotkey_task = kthread_run(hotkey_kthread, NULL, TPACPI_NVRAM_KTHREAD_NAME); if (IS_ERR(tpacpi_hotkey_task)) { tpacpi_hotkey_task = NULL; pr_err("could not create kernel thread for hotkey polling\n"); } } } else { hotkey_poll_stop_sync(); if (may_warn && (poll_driver_mask || poll_user_mask) && hotkey_poll_freq == 0) { pr_notice("hot keys 0x%08x and/or events 0x%08x require polling, which is currently disabled\n", poll_user_mask, poll_driver_mask); } } } static void hotkey_poll_setup_safe(const bool may_warn) { mutex_lock(&hotkey_mutex); hotkey_poll_setup(may_warn); mutex_unlock(&hotkey_mutex); } /* call with hotkey_mutex held */ static void hotkey_poll_set_freq(unsigned int freq) { if (!freq) hotkey_poll_stop_sync(); hotkey_poll_freq = freq; } #else /* CONFIG_THINKPAD_ACPI_HOTKEY_POLL */ static void hotkey_poll_setup(const bool __unused) { } static void hotkey_poll_setup_safe(const bool __unused) { } #endif /* CONFIG_THINKPAD_ACPI_HOTKEY_POLL */ static int hotkey_inputdev_open(struct input_dev *dev) { switch (tpacpi_lifecycle) { case TPACPI_LIFE_INIT: case TPACPI_LIFE_RUNNING: hotkey_poll_setup_safe(false); return 0; case TPACPI_LIFE_EXITING: return -EBUSY; } /* Should only happen if tpacpi_lifecycle is corrupt */ BUG(); return -EBUSY; } static void hotkey_inputdev_close(struct input_dev *dev) { /* disable hotkey polling when possible */ if (tpacpi_lifecycle != TPACPI_LIFE_EXITING && !(hotkey_source_mask & hotkey_driver_mask)) hotkey_poll_setup_safe(false); } /* sysfs hotkey enable ------------------------------------------------- */ static ssize_t hotkey_enable_show(struct device *dev, struct device_attribute *attr, char *buf) { int res, status; printk_deprecated_attribute("hotkey_enable", "Hotkey reporting is always enabled"); res = hotkey_status_get(&status); if (res) return res; return sysfs_emit(buf, "%d\n", status); } static ssize_t hotkey_enable_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { unsigned long t; printk_deprecated_attribute("hotkey_enable", "Hotkeys can be disabled through hotkey_mask"); if (parse_strtoul(buf, 1, &t)) return -EINVAL; if (t == 0) return -EPERM; return count; } static DEVICE_ATTR_RW(hotkey_enable); /* sysfs hotkey mask --------------------------------------------------- */ static ssize_t hotkey_mask_show(struct device *dev, struct device_attribute *attr, char *buf) { return sysfs_emit(buf, "0x%08x\n", hotkey_user_mask); } static ssize_t hotkey_mask_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { unsigned long t; int res; if (parse_strtoul(buf, 0xffffffffUL, &t)) return -EINVAL; if (mutex_lock_killable(&hotkey_mutex)) return -ERESTARTSYS; res = hotkey_user_mask_set(t); #ifdef CONFIG_THINKPAD_ACPI_HOTKEY_POLL hotkey_poll_setup(true); #endif mutex_unlock(&hotkey_mutex); tpacpi_disclose_usertask("hotkey_mask", "set to 0x%08lx\n", t); return (res) ? res : count; } static DEVICE_ATTR_RW(hotkey_mask); /* sysfs hotkey bios_enabled ------------------------------------------- */ static ssize_t hotkey_bios_enabled_show(struct device *dev, struct device_attribute *attr, char *buf) { return sprintf(buf, "0\n"); } static DEVICE_ATTR_RO(hotkey_bios_enabled); /* sysfs hotkey bios_mask ---------------------------------------------- */ static ssize_t hotkey_bios_mask_show(struct device *dev, struct device_attribute *attr, char *buf) { printk_deprecated_attribute("hotkey_bios_mask", "This attribute is useless."); return sysfs_emit(buf, "0x%08x\n", hotkey_orig_mask); } static DEVICE_ATTR_RO(hotkey_bios_mask); /* sysfs hotkey all_mask ----------------------------------------------- */ static ssize_t hotkey_all_mask_show(struct device *dev, struct device_attribute *attr, char *buf) { return sysfs_emit(buf, "0x%08x\n", hotkey_all_mask | hotkey_source_mask); } static DEVICE_ATTR_RO(hotkey_all_mask); /* sysfs hotkey all_mask ----------------------------------------------- */ static ssize_t hotkey_adaptive_all_mask_show(struct device *dev, struct device_attribute *attr, char *buf) { return sysfs_emit(buf, "0x%08x\n", hotkey_adaptive_all_mask | hotkey_source_mask); } static DEVICE_ATTR_RO(hotkey_adaptive_all_mask); /* sysfs hotkey recommended_mask --------------------------------------- */ static ssize_t hotkey_recommended_mask_show(struct device *dev, struct device_attribute *attr, char *buf) { return sysfs_emit(buf, "0x%08x\n", (hotkey_all_mask | hotkey_source_mask) & ~hotkey_reserved_mask); } static DEVICE_ATTR_RO(hotkey_recommended_mask); #ifdef CONFIG_THINKPAD_ACPI_HOTKEY_POLL /* sysfs hotkey hotkey_source_mask ------------------------------------- */ static ssize_t hotkey_source_mask_show(struct device *dev, struct device_attribute *attr, char *buf) { return sysfs_emit(buf, "0x%08x\n", hotkey_source_mask); } static ssize_t hotkey_source_mask_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { unsigned long t; u32 r_ev; int rc; if (parse_strtoul(buf, 0xffffffffUL, &t) || ((t & ~TPACPI_HKEY_NVRAM_KNOWN_MASK) != 0)) return -EINVAL; if (mutex_lock_killable(&hotkey_mutex)) return -ERESTARTSYS; HOTKEY_CONFIG_CRITICAL_START hotkey_source_mask = t; HOTKEY_CONFIG_CRITICAL_END rc = hotkey_mask_set((hotkey_user_mask | hotkey_driver_mask) & ~hotkey_source_mask); hotkey_poll_setup(true); /* check if events needed by the driver got disabled */ r_ev = hotkey_driver_mask & ~(hotkey_acpi_mask & hotkey_all_mask) & ~hotkey_source_mask & TPACPI_HKEY_NVRAM_KNOWN_MASK; mutex_unlock(&hotkey_mutex); if (rc < 0) pr_err("hotkey_source_mask: failed to update the firmware event mask!\n"); if (r_ev) pr_notice("hotkey_source_mask: some important events were disabled: 0x%04x\n", r_ev); tpacpi_disclose_usertask("hotkey_source_mask", "set to 0x%08lx\n", t); return (rc < 0) ? rc : count; } static DEVICE_ATTR_RW(hotkey_source_mask); /* sysfs hotkey hotkey_poll_freq --------------------------------------- */ static ssize_t hotkey_poll_freq_show(struct device *dev, struct device_attribute *attr, char *buf) { return sysfs_emit(buf, "%d\n", hotkey_poll_freq); } static ssize_t hotkey_poll_freq_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { unsigned long t; if (parse_strtoul(buf, 25, &t)) return -EINVAL; if (mutex_lock_killable(&hotkey_mutex)) return -ERESTARTSYS; hotkey_poll_set_freq(t); hotkey_poll_setup(true); mutex_unlock(&hotkey_mutex); tpacpi_disclose_usertask("hotkey_poll_freq", "set to %lu\n", t); return count; } static DEVICE_ATTR_RW(hotkey_poll_freq); #endif /* CONFIG_THINKPAD_ACPI_HOTKEY_POLL */ /* sysfs hotkey radio_sw (pollable) ------------------------------------ */ static ssize_t hotkey_radio_sw_show(struct device *dev, struct device_attribute *attr, char *buf) { int res; res = hotkey_get_wlsw(); if (res < 0) return res; /* Opportunistic update */ tpacpi_rfk_update_hwblock_state((res == TPACPI_RFK_RADIO_OFF)); return sysfs_emit(buf, "%d\n", (res == TPACPI_RFK_RADIO_OFF) ? 0 : 1); } static DEVICE_ATTR_RO(hotkey_radio_sw); static void hotkey_radio_sw_notify_change(void) { if (tp_features.hotkey_wlsw) sysfs_notify(&tpacpi_pdev->dev.kobj, NULL, "hotkey_radio_sw"); } /* sysfs hotkey tablet mode (pollable) --------------------------------- */ static ssize_t hotkey_tablet_mode_show(struct device *dev, struct device_attribute *attr, char *buf) { int res, s; res = hotkey_get_tablet_mode(&s); if (res < 0) return res; return sysfs_emit(buf, "%d\n", !!s); } static DEVICE_ATTR_RO(hotkey_tablet_mode); static void hotkey_tablet_mode_notify_change(void) { if (tp_features.hotkey_tablet) sysfs_notify(&tpacpi_pdev->dev.kobj, NULL, "hotkey_tablet_mode"); } /* sysfs wakeup reason (pollable) -------------------------------------- */ static ssize_t hotkey_wakeup_reason_show(struct device *dev, struct device_attribute *attr, char *buf) { return sysfs_emit(buf, "%d\n", hotkey_wakeup_reason); } static DEVICE_ATTR(wakeup_reason, S_IRUGO, hotkey_wakeup_reason_show, NULL); static void hotkey_wakeup_reason_notify_change(void) { sysfs_notify(&tpacpi_pdev->dev.kobj, NULL, "wakeup_reason"); } /* sysfs wakeup hotunplug_complete (pollable) -------------------------- */ static ssize_t hotkey_wakeup_hotunplug_complete_show(struct device *dev, struct device_attribute *attr, char *buf) { return sysfs_emit(buf, "%d\n", hotkey_autosleep_ack); } static DEVICE_ATTR(wakeup_hotunplug_complete, S_IRUGO, hotkey_wakeup_hotunplug_complete_show, NULL); static void hotkey_wakeup_hotunplug_complete_notify_change(void) { sysfs_notify(&tpacpi_pdev->dev.kobj, NULL, "wakeup_hotunplug_complete"); } /* sysfs adaptive kbd mode --------------------------------------------- */ static int adaptive_keyboard_get_mode(void); static int adaptive_keyboard_set_mode(int new_mode); enum ADAPTIVE_KEY_MODE { HOME_MODE, WEB_BROWSER_MODE, WEB_CONFERENCE_MODE, FUNCTION_MODE, LAYFLAT_MODE }; static ssize_t adaptive_kbd_mode_show(struct device *dev, struct device_attribute *attr, char *buf) { int current_mode; current_mode = adaptive_keyboard_get_mode(); if (current_mode < 0) return current_mode; return sysfs_emit(buf, "%d\n", current_mode); } static ssize_t adaptive_kbd_mode_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { unsigned long t; int res; if (parse_strtoul(buf, LAYFLAT_MODE, &t)) return -EINVAL; res = adaptive_keyboard_set_mode(t); return (res < 0) ? res : count; } static DEVICE_ATTR_RW(adaptive_kbd_mode); static struct attribute *adaptive_kbd_attributes[] = { &dev_attr_adaptive_kbd_mode.attr, NULL }; static umode_t hadaptive_kbd_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { return tp_features.has_adaptive_kbd ? attr->mode : 0; } static const struct attribute_group adaptive_kbd_attr_group = { .is_visible = hadaptive_kbd_attr_is_visible, .attrs = adaptive_kbd_attributes, }; /* --------------------------------------------------------------------- */ static struct attribute *hotkey_attributes[] = { &dev_attr_hotkey_enable.attr, &dev_attr_hotkey_bios_enabled.attr, &dev_attr_hotkey_bios_mask.attr, &dev_attr_wakeup_reason.attr, &dev_attr_wakeup_hotunplug_complete.attr, &dev_attr_hotkey_mask.attr, &dev_attr_hotkey_all_mask.attr, &dev_attr_hotkey_adaptive_all_mask.attr, &dev_attr_hotkey_recommended_mask.attr, &dev_attr_hotkey_tablet_mode.attr, &dev_attr_hotkey_radio_sw.attr, #ifdef CONFIG_THINKPAD_ACPI_HOTKEY_POLL &dev_attr_hotkey_source_mask.attr, &dev_attr_hotkey_poll_freq.attr, #endif NULL }; static umode_t hotkey_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { if (attr == &dev_attr_hotkey_tablet_mode.attr) { if (!tp_features.hotkey_tablet) return 0; } else if (attr == &dev_attr_hotkey_radio_sw.attr) { if (!tp_features.hotkey_wlsw) return 0; } return attr->mode; } static const struct attribute_group hotkey_attr_group = { .is_visible = hotkey_attr_is_visible, .attrs = hotkey_attributes, }; /* * Sync both the hw and sw blocking state of all switches */ static void tpacpi_send_radiosw_update(void) { int wlsw; /* * We must sync all rfkill controllers *before* issuing any * rfkill input events, or we will race the rfkill core input * handler. * * tpacpi_inputdev_send_mutex works as a synchronization point * for the above. * * We optimize to avoid numerous calls to hotkey_get_wlsw. */ wlsw = hotkey_get_wlsw(); /* Sync hw blocking state first if it is hw-blocked */ if (wlsw == TPACPI_RFK_RADIO_OFF) tpacpi_rfk_update_hwblock_state(true); /* Sync hw blocking state last if it is hw-unblocked */ if (wlsw == TPACPI_RFK_RADIO_ON) tpacpi_rfk_update_hwblock_state(false); /* Issue rfkill input event for WLSW switch */ if (!(wlsw < 0)) { mutex_lock(&tpacpi_inputdev_send_mutex); input_report_switch(tpacpi_inputdev, SW_RFKILL_ALL, (wlsw > 0)); input_sync(tpacpi_inputdev); mutex_unlock(&tpacpi_inputdev_send_mutex); } /* * this can be unconditional, as we will poll state again * if userspace uses the notify to read data */ hotkey_radio_sw_notify_change(); } static void hotkey_exit(void) { #ifdef CONFIG_THINKPAD_ACPI_HOTKEY_POLL mutex_lock(&hotkey_mutex); hotkey_poll_stop_sync(); mutex_unlock(&hotkey_mutex); #endif dbg_printk(TPACPI_DBG_EXIT | TPACPI_DBG_HKEY, "restoring original HKEY status and mask\n"); /* yes, there is a bitwise or below, we want the * functions to be called even if one of them fail */ if (((tp_features.hotkey_mask && hotkey_mask_set(hotkey_orig_mask)) | hotkey_status_set(false)) != 0) pr_err("failed to restore hot key mask to BIOS defaults\n"); } static void __init hotkey_unmap(const unsigned int scancode) { if (hotkey_keycode_map[scancode] != KEY_RESERVED) { clear_bit(hotkey_keycode_map[scancode], tpacpi_inputdev->keybit); hotkey_keycode_map[scancode] = KEY_RESERVED; } } /* * HKEY quirks: * TPACPI_HK_Q_INIMASK: Supports FN+F3,FN+F4,FN+F12 */ #define TPACPI_HK_Q_INIMASK 0x0001 static const struct tpacpi_quirk tpacpi_hotkey_qtable[] __initconst = { TPACPI_Q_IBM('I', 'H', TPACPI_HK_Q_INIMASK), /* 600E */ TPACPI_Q_IBM('I', 'N', TPACPI_HK_Q_INIMASK), /* 600E */ TPACPI_Q_IBM('I', 'D', TPACPI_HK_Q_INIMASK), /* 770, 770E, 770ED */ TPACPI_Q_IBM('I', 'W', TPACPI_HK_Q_INIMASK), /* A20m */ TPACPI_Q_IBM('I', 'V', TPACPI_HK_Q_INIMASK), /* A20p */ TPACPI_Q_IBM('1', '0', TPACPI_HK_Q_INIMASK), /* A21e, A22e */ TPACPI_Q_IBM('K', 'U', TPACPI_HK_Q_INIMASK), /* A21e */ TPACPI_Q_IBM('K', 'X', TPACPI_HK_Q_INIMASK), /* A21m, A22m */ TPACPI_Q_IBM('K', 'Y', TPACPI_HK_Q_INIMASK), /* A21p, A22p */ TPACPI_Q_IBM('1', 'B', TPACPI_HK_Q_INIMASK), /* A22e */ TPACPI_Q_IBM('1', '3', TPACPI_HK_Q_INIMASK), /* A22m */ TPACPI_Q_IBM('1', 'E', TPACPI_HK_Q_INIMASK), /* A30/p (0) */ TPACPI_Q_IBM('1', 'C', TPACPI_HK_Q_INIMASK), /* R30 */ TPACPI_Q_IBM('1', 'F', TPACPI_HK_Q_INIMASK), /* R31 */ TPACPI_Q_IBM('I', 'Y', TPACPI_HK_Q_INIMASK), /* T20 */ TPACPI_Q_IBM('K', 'Z', TPACPI_HK_Q_INIMASK), /* T21 */ TPACPI_Q_IBM('1', '6', TPACPI_HK_Q_INIMASK), /* T22 */ TPACPI_Q_IBM('I', 'Z', TPACPI_HK_Q_INIMASK), /* X20, X21 */ TPACPI_Q_IBM('1', 'D', TPACPI_HK_Q_INIMASK), /* X22, X23, X24 */ }; typedef u16 tpacpi_keymap_entry_t; typedef tpacpi_keymap_entry_t tpacpi_keymap_t[TPACPI_HOTKEY_MAP_LEN]; static int hotkey_init_tablet_mode(void) { int in_tablet_mode = 0, res; char *type = NULL; if (acpi_evalf(hkey_handle, &res, "GMMS", "qdd", 0)) { int has_tablet_mode; in_tablet_mode = hotkey_gmms_get_tablet_mode(res, &has_tablet_mode); /* * The Yoga 11e series has 2 accelerometers described by a * BOSC0200 ACPI node. This setup relies on a Windows service * which calls special ACPI methods on this node to report * the laptop/tent/tablet mode to the EC. The bmc150 iio driver * does not support this, so skip the hotkey on these models. */ if (has_tablet_mode && !dual_accel_detect()) tp_features.hotkey_tablet = TP_HOTKEY_TABLET_USES_GMMS; type = "GMMS"; } else if (acpi_evalf(hkey_handle, &res, "MHKG", "qd")) { /* For X41t, X60t, X61t Tablets... */ tp_features.hotkey_tablet = TP_HOTKEY_TABLET_USES_MHKG; in_tablet_mode = !!(res & TP_HOTKEY_TABLET_MASK); type = "MHKG"; } if (!tp_features.hotkey_tablet) return 0; pr_info("Tablet mode switch found (type: %s), currently in %s mode\n", type, in_tablet_mode ? "tablet" : "laptop"); return in_tablet_mode; } static int __init hotkey_init(struct ibm_init_struct *iibm) { /* Requirements for changing the default keymaps: * * 1. Many of the keys are mapped to KEY_RESERVED for very * good reasons. Do not change them unless you have deep * knowledge on the IBM and Lenovo ThinkPad firmware for * the various ThinkPad models. The driver behaves * differently for KEY_RESERVED: such keys have their * hot key mask *unset* in mask_recommended, and also * in the initial hot key mask programmed into the * firmware at driver load time, which means the firm- * ware may react very differently if you change them to * something else; * * 2. You must be subscribed to the linux-thinkpad and * ibm-acpi-devel mailing lists, and you should read the * list archives since 2007 if you want to change the * keymaps. This requirement exists so that you will * know the past history of problems with the thinkpad- * acpi driver keymaps, and also that you will be * listening to any bug reports; * * 3. Do not send thinkpad-acpi specific patches directly to * for merging, *ever*. Send them to the linux-acpi * mailinglist for comments. Merging is to be done only * through acpi-test and the ACPI maintainer. * * If the above is too much to ask, don't change the keymap. * Ask the thinkpad-acpi maintainer to do it, instead. */ enum keymap_index { TPACPI_KEYMAP_IBM_GENERIC = 0, TPACPI_KEYMAP_LENOVO_GENERIC, }; static const tpacpi_keymap_t tpacpi_keymaps[] __initconst = { /* Generic keymap for IBM ThinkPads */ [TPACPI_KEYMAP_IBM_GENERIC] = { /* Scan Codes 0x00 to 0x0B: ACPI HKEY FN+F1..F12 */ KEY_FN_F1, KEY_BATTERY, KEY_COFFEE, KEY_SLEEP, KEY_WLAN, KEY_FN_F6, KEY_SWITCHVIDEOMODE, KEY_FN_F8, KEY_FN_F9, KEY_FN_F10, KEY_FN_F11, KEY_SUSPEND, /* Scan codes 0x0C to 0x1F: Other ACPI HKEY hot keys */ KEY_UNKNOWN, /* 0x0C: FN+BACKSPACE */ KEY_UNKNOWN, /* 0x0D: FN+INSERT */ KEY_UNKNOWN, /* 0x0E: FN+DELETE */ /* brightness: firmware always reacts to them */ KEY_RESERVED, /* 0x0F: FN+HOME (brightness up) */ KEY_RESERVED, /* 0x10: FN+END (brightness down) */ /* Thinklight: firmware always react to it */ KEY_RESERVED, /* 0x11: FN+PGUP (thinklight toggle) */ KEY_UNKNOWN, /* 0x12: FN+PGDOWN */ KEY_ZOOM, /* 0x13: FN+SPACE (zoom) */ /* Volume: firmware always react to it and reprograms * the built-in *extra* mixer. Never map it to control * another mixer by default. */ KEY_RESERVED, /* 0x14: VOLUME UP */ KEY_RESERVED, /* 0x15: VOLUME DOWN */ KEY_RESERVED, /* 0x16: MUTE */ KEY_VENDOR, /* 0x17: Thinkpad/AccessIBM/Lenovo */ /* (assignments unknown, please report if found) */ KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, /* No assignments, only used for Adaptive keyboards. */ KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, /* No assignment, used for newer Lenovo models */ KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN }, /* Generic keymap for Lenovo ThinkPads */ [TPACPI_KEYMAP_LENOVO_GENERIC] = { /* Scan Codes 0x00 to 0x0B: ACPI HKEY FN+F1..F12 */ KEY_FN_F1, KEY_COFFEE, KEY_BATTERY, KEY_SLEEP, KEY_WLAN, KEY_CAMERA, KEY_SWITCHVIDEOMODE, KEY_FN_F8, KEY_FN_F9, KEY_FN_F10, KEY_FN_F11, KEY_SUSPEND, /* Scan codes 0x0C to 0x1F: Other ACPI HKEY hot keys */ KEY_UNKNOWN, /* 0x0C: FN+BACKSPACE */ KEY_UNKNOWN, /* 0x0D: FN+INSERT */ KEY_UNKNOWN, /* 0x0E: FN+DELETE */ /* These should be enabled --only-- when ACPI video * is disabled (i.e. in "vendor" mode), and are handled * in a special way by the init code */ KEY_BRIGHTNESSUP, /* 0x0F: FN+HOME (brightness up) */ KEY_BRIGHTNESSDOWN, /* 0x10: FN+END (brightness down) */ KEY_RESERVED, /* 0x11: FN+PGUP (thinklight toggle) */ KEY_UNKNOWN, /* 0x12: FN+PGDOWN */ KEY_ZOOM, /* 0x13: FN+SPACE (zoom) */ /* Volume: z60/z61, T60 (BIOS version?): firmware always * react to it and reprograms the built-in *extra* mixer. * Never map it to control another mixer by default. * * T60?, T61, R60?, R61: firmware and EC tries to send * these over the regular keyboard, so these are no-ops, * but there are still weird bugs re. MUTE, so do not * change unless you get test reports from all Lenovo * models. May cause the BIOS to interfere with the * HDA mixer. */ KEY_RESERVED, /* 0x14: VOLUME UP */ KEY_RESERVED, /* 0x15: VOLUME DOWN */ KEY_RESERVED, /* 0x16: MUTE */ KEY_VENDOR, /* 0x17: Thinkpad/AccessIBM/Lenovo */ /* (assignments unknown, please report if found) */ KEY_UNKNOWN, KEY_UNKNOWN, /* * The mic mute button only sends 0x1a. It does not * automatically mute the mic or change the mute light. */ KEY_MICMUTE, /* 0x1a: Mic mute (since ?400 or so) */ /* (assignments unknown, please report if found) */ KEY_UNKNOWN, /* Extra keys in use since the X240 / T440 / T540 */ KEY_CONFIG, KEY_SEARCH, KEY_SCALE, KEY_FILE, /* * These are the adaptive keyboard keycodes for Carbon X1 2014. * The first item in this list is the Mute button which is * emitted with 0x103 through * adaptive_keyboard_hotkey_notify_hotkey() when the sound * symbol is held. * We'll need to offset those by 0x20. */ KEY_RESERVED, /* Mute held, 0x103 */ KEY_BRIGHTNESS_MIN, /* Backlight off */ KEY_RESERVED, /* Clipping tool */ KEY_RESERVED, /* Cloud */ KEY_RESERVED, KEY_VOICECOMMAND, /* Voice */ KEY_RESERVED, KEY_RESERVED, /* Gestures */ KEY_RESERVED, KEY_RESERVED, KEY_RESERVED, KEY_CONFIG, /* Settings */ KEY_RESERVED, /* New tab */ KEY_REFRESH, /* Reload */ KEY_BACK, /* Back */ KEY_RESERVED, /* Microphone down */ KEY_RESERVED, /* Microphone up */ KEY_RESERVED, /* Microphone cancellation */ KEY_RESERVED, /* Camera mode */ KEY_RESERVED, /* Rotate display, 0x116 */ /* * These are found in 2017 models (e.g. T470s, X270). * The lowest known value is 0x311, which according to * the manual should launch a user defined favorite * application. * * The offset for these is TP_ACPI_HOTKEYSCAN_EXTENDED_START, * corresponding to 0x34. */ /* (assignments unknown, please report if found) */ KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_UNKNOWN, KEY_BOOKMARKS, /* Favorite app, 0x311 */ KEY_SELECTIVE_SCREENSHOT, /* Clipping tool */ KEY_CALC, /* Calculator (above numpad, P52) */ KEY_BLUETOOTH, /* Bluetooth */ KEY_KEYBOARD, /* Keyboard, 0x315 */ KEY_FN_RIGHT_SHIFT, /* Fn + right Shift */ KEY_NOTIFICATION_CENTER, /* Notification Center */ KEY_PICKUP_PHONE, /* Answer incoming call */ KEY_HANGUP_PHONE, /* Decline incoming call */ }, }; static const struct tpacpi_quirk tpacpi_keymap_qtable[] __initconst = { /* Generic maps (fallback) */ { .vendor = PCI_VENDOR_ID_IBM, .bios = TPACPI_MATCH_ANY, .ec = TPACPI_MATCH_ANY, .quirks = TPACPI_KEYMAP_IBM_GENERIC, }, { .vendor = PCI_VENDOR_ID_LENOVO, .bios = TPACPI_MATCH_ANY, .ec = TPACPI_MATCH_ANY, .quirks = TPACPI_KEYMAP_LENOVO_GENERIC, }, }; #define TPACPI_HOTKEY_MAP_SIZE sizeof(tpacpi_keymap_t) #define TPACPI_HOTKEY_MAP_TYPESIZE sizeof(tpacpi_keymap_entry_t) int res, i; int status; int hkeyv; bool radiosw_state = false; bool tabletsw_state = false; unsigned long quirks; unsigned long keymap_id; vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_HKEY, "initializing hotkey subdriver\n"); BUG_ON(!tpacpi_inputdev); BUG_ON(tpacpi_inputdev->open != NULL || tpacpi_inputdev->close != NULL); TPACPI_ACPIHANDLE_INIT(hkey); mutex_init(&hotkey_mutex); #ifdef CONFIG_THINKPAD_ACPI_HOTKEY_POLL mutex_init(&hotkey_thread_data_mutex); #endif /* hotkey not supported on 570 */ tp_features.hotkey = hkey_handle != NULL; vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_HKEY, "hotkeys are %s\n", str_supported(tp_features.hotkey)); if (!tp_features.hotkey) return -ENODEV; quirks = tpacpi_check_quirks(tpacpi_hotkey_qtable, ARRAY_SIZE(tpacpi_hotkey_qtable)); tpacpi_disable_brightness_delay(); /* mask not supported on 600e/x, 770e, 770x, A21e, A2xm/p, A30, R30, R31, T20-22, X20-21, X22-24. Detected by checking for HKEY interface version 0x100 */ if (acpi_evalf(hkey_handle, &hkeyv, "MHKV", "qd")) { vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_HKEY, "firmware HKEY interface version: 0x%x\n", hkeyv); switch (hkeyv >> 8) { case 1: /* * MHKV 0x100 in A31, R40, R40e, * T4x, X31, and later */ /* Paranoia check AND init hotkey_all_mask */ if (!acpi_evalf(hkey_handle, &hotkey_all_mask, "MHKA", "qd")) { pr_err("missing MHKA handler, please report this to %s\n", TPACPI_MAIL); /* Fallback: pre-init for FN+F3,F4,F12 */ hotkey_all_mask = 0x080cU; } else { tp_features.hotkey_mask = 1; } break; case 2: /* * MHKV 0x200 in X1, T460s, X260, T560, X1 Tablet (2016) */ /* Paranoia check AND init hotkey_all_mask */ if (!acpi_evalf(hkey_handle, &hotkey_all_mask, "MHKA", "dd", 1)) { pr_err("missing MHKA handler, please report this to %s\n", TPACPI_MAIL); /* Fallback: pre-init for FN+F3,F4,F12 */ hotkey_all_mask = 0x080cU; } else { tp_features.hotkey_mask = 1; } /* * Check if we have an adaptive keyboard, like on the * Lenovo Carbon X1 2014 (2nd Gen). */ if (acpi_evalf(hkey_handle, &hotkey_adaptive_all_mask, "MHKA", "dd", 2)) { if (hotkey_adaptive_all_mask != 0) tp_features.has_adaptive_kbd = true; } else { tp_features.has_adaptive_kbd = false; hotkey_adaptive_all_mask = 0x0U; } break; default: pr_err("unknown version of the HKEY interface: 0x%x\n", hkeyv); pr_err("please report this to %s\n", TPACPI_MAIL); break; } } vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_HKEY, "hotkey masks are %s\n", str_supported(tp_features.hotkey_mask)); /* Init hotkey_all_mask if not initialized yet */ if (!tp_features.hotkey_mask && !hotkey_all_mask && (quirks & TPACPI_HK_Q_INIMASK)) hotkey_all_mask = 0x080cU; /* FN+F12, FN+F4, FN+F3 */ /* Init hotkey_acpi_mask and hotkey_orig_mask */ if (tp_features.hotkey_mask) { /* hotkey_source_mask *must* be zero for * the first hotkey_mask_get to return hotkey_orig_mask */ res = hotkey_mask_get(); if (res) return res; hotkey_orig_mask = hotkey_acpi_mask; } else { hotkey_orig_mask = hotkey_all_mask; hotkey_acpi_mask = hotkey_all_mask; } #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES if (dbg_wlswemul) { tp_features.hotkey_wlsw = 1; radiosw_state = !!tpacpi_wlsw_emulstate; pr_info("radio switch emulation enabled\n"); } else #endif /* Not all thinkpads have a hardware radio switch */ if (acpi_evalf(hkey_handle, &status, "WLSW", "qd")) { tp_features.hotkey_wlsw = 1; radiosw_state = !!status; pr_info("radio switch found; radios are %s\n", str_enabled_disabled(status & BIT(0))); } tabletsw_state = hotkey_init_tablet_mode(); /* Set up key map */ keymap_id = tpacpi_check_quirks(tpacpi_keymap_qtable, ARRAY_SIZE(tpacpi_keymap_qtable)); BUG_ON(keymap_id >= ARRAY_SIZE(tpacpi_keymaps)); dbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_HKEY, "using keymap number %lu\n", keymap_id); hotkey_keycode_map = kmemdup(&tpacpi_keymaps[keymap_id], TPACPI_HOTKEY_MAP_SIZE, GFP_KERNEL); if (!hotkey_keycode_map) { pr_err("failed to allocate memory for key map\n"); return -ENOMEM; } input_set_capability(tpacpi_inputdev, EV_MSC, MSC_SCAN); tpacpi_inputdev->keycodesize = TPACPI_HOTKEY_MAP_TYPESIZE; tpacpi_inputdev->keycodemax = TPACPI_HOTKEY_MAP_LEN; tpacpi_inputdev->keycode = hotkey_keycode_map; for (i = 0; i < TPACPI_HOTKEY_MAP_LEN; i++) { if (hotkey_keycode_map[i] != KEY_RESERVED) { input_set_capability(tpacpi_inputdev, EV_KEY, hotkey_keycode_map[i]); } else { if (i < sizeof(hotkey_reserved_mask)*8) hotkey_reserved_mask |= 1 << i; } } if (tp_features.hotkey_wlsw) { input_set_capability(tpacpi_inputdev, EV_SW, SW_RFKILL_ALL); input_report_switch(tpacpi_inputdev, SW_RFKILL_ALL, radiosw_state); } if (tp_features.hotkey_tablet) { input_set_capability(tpacpi_inputdev, EV_SW, SW_TABLET_MODE); input_report_switch(tpacpi_inputdev, SW_TABLET_MODE, tabletsw_state); } /* Do not issue duplicate brightness change events to * userspace. tpacpi_detect_brightness_capabilities() must have * been called before this point */ if (acpi_video_get_backlight_type() != acpi_backlight_vendor) { pr_info("This ThinkPad has standard ACPI backlight brightness control, supported by the ACPI video driver\n"); pr_notice("Disabling thinkpad-acpi brightness events by default...\n"); /* Disable brightness up/down on Lenovo thinkpads when * ACPI is handling them, otherwise it is plain impossible * for userspace to do something even remotely sane */ hotkey_reserved_mask |= (1 << TP_ACPI_HOTKEYSCAN_FNHOME) | (1 << TP_ACPI_HOTKEYSCAN_FNEND); hotkey_unmap(TP_ACPI_HOTKEYSCAN_FNHOME); hotkey_unmap(TP_ACPI_HOTKEYSCAN_FNEND); } #ifdef CONFIG_THINKPAD_ACPI_HOTKEY_POLL hotkey_source_mask = TPACPI_HKEY_NVRAM_GOOD_MASK & ~hotkey_all_mask & ~hotkey_reserved_mask; vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_HKEY, "hotkey source mask 0x%08x, polling freq %u\n", hotkey_source_mask, hotkey_poll_freq); #endif dbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_HKEY, "enabling firmware HKEY event interface...\n"); res = hotkey_status_set(true); if (res) { hotkey_exit(); return res; } res = hotkey_mask_set(((hotkey_all_mask & ~hotkey_reserved_mask) | hotkey_driver_mask) & ~hotkey_source_mask); if (res < 0 && res != -ENXIO) { hotkey_exit(); return res; } hotkey_user_mask = (hotkey_acpi_mask | hotkey_source_mask) & ~hotkey_reserved_mask; vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_HKEY, "initial masks: user=0x%08x, fw=0x%08x, poll=0x%08x\n", hotkey_user_mask, hotkey_acpi_mask, hotkey_source_mask); tpacpi_inputdev->open = &hotkey_inputdev_open; tpacpi_inputdev->close = &hotkey_inputdev_close; hotkey_poll_setup_safe(true); return 0; } /* Thinkpad X1 Carbon support 5 modes including Home mode, Web browser * mode, Web conference mode, Function mode and Lay-flat mode. * We support Home mode and Function mode currently. * * Will consider support rest of modes in future. * */ static const int adaptive_keyboard_modes[] = { HOME_MODE, /* WEB_BROWSER_MODE = 2, WEB_CONFERENCE_MODE = 3, */ FUNCTION_MODE }; #define DFR_CHANGE_ROW 0x101 #define DFR_SHOW_QUICKVIEW_ROW 0x102 #define FIRST_ADAPTIVE_KEY 0x103 /* press Fn key a while second, it will switch to Function Mode. Then * release Fn key, previous mode be restored. */ static bool adaptive_keyboard_mode_is_saved; static int adaptive_keyboard_prev_mode; static int adaptive_keyboard_get_mode(void) { int mode = 0; if (!acpi_evalf(hkey_handle, &mode, "GTRW", "dd", 0)) { pr_err("Cannot read adaptive keyboard mode\n"); return -EIO; } return mode; } static int adaptive_keyboard_set_mode(int new_mode) { if (new_mode < 0 || new_mode > LAYFLAT_MODE) return -EINVAL; if (!acpi_evalf(hkey_handle, NULL, "STRW", "vd", new_mode)) { pr_err("Cannot set adaptive keyboard mode\n"); return -EIO; } return 0; } static int adaptive_keyboard_get_next_mode(int mode) { size_t i; size_t max_mode = ARRAY_SIZE(adaptive_keyboard_modes) - 1; for (i = 0; i <= max_mode; i++) { if (adaptive_keyboard_modes[i] == mode) break; } if (i >= max_mode) i = 0; else i++; return adaptive_keyboard_modes[i]; } static bool adaptive_keyboard_hotkey_notify_hotkey(unsigned int scancode) { int current_mode = 0; int new_mode = 0; int keycode; switch (scancode) { case DFR_CHANGE_ROW: if (adaptive_keyboard_mode_is_saved) { new_mode = adaptive_keyboard_prev_mode; adaptive_keyboard_mode_is_saved = false; } else { current_mode = adaptive_keyboard_get_mode(); if (current_mode < 0) return false; new_mode = adaptive_keyboard_get_next_mode( current_mode); } if (adaptive_keyboard_set_mode(new_mode) < 0) return false; return true; case DFR_SHOW_QUICKVIEW_ROW: current_mode = adaptive_keyboard_get_mode(); if (current_mode < 0) return false; adaptive_keyboard_prev_mode = current_mode; adaptive_keyboard_mode_is_saved = true; if (adaptive_keyboard_set_mode (FUNCTION_MODE) < 0) return false; return true; default: if (scancode < FIRST_ADAPTIVE_KEY || scancode >= FIRST_ADAPTIVE_KEY + TP_ACPI_HOTKEYSCAN_EXTENDED_START - TP_ACPI_HOTKEYSCAN_ADAPTIVE_START) { pr_info("Unhandled adaptive keyboard key: 0x%x\n", scancode); return false; } keycode = hotkey_keycode_map[scancode - FIRST_ADAPTIVE_KEY + TP_ACPI_HOTKEYSCAN_ADAPTIVE_START]; if (keycode != KEY_RESERVED) { mutex_lock(&tpacpi_inputdev_send_mutex); input_report_key(tpacpi_inputdev, keycode, 1); input_sync(tpacpi_inputdev); input_report_key(tpacpi_inputdev, keycode, 0); input_sync(tpacpi_inputdev); mutex_unlock(&tpacpi_inputdev_send_mutex); } return true; } } static bool hotkey_notify_extended_hotkey(const u32 hkey) { unsigned int scancode; switch (hkey) { case TP_HKEY_EV_PRIVACYGUARD_TOGGLE: case TP_HKEY_EV_AMT_TOGGLE: tpacpi_driver_event(hkey); return true; } /* Extended keycodes start at 0x300 and our offset into the map * TP_ACPI_HOTKEYSCAN_EXTENDED_START. The calculated scancode * will be positive, but might not be in the correct range. */ scancode = (hkey & 0xfff) - (0x300 - TP_ACPI_HOTKEYSCAN_EXTENDED_START); if (scancode >= TP_ACPI_HOTKEYSCAN_EXTENDED_START && scancode < TPACPI_HOTKEY_MAP_LEN) { tpacpi_input_send_key(scancode); return true; } return false; } static bool hotkey_notify_hotkey(const u32 hkey, bool *send_acpi_ev, bool *ignore_acpi_ev) { /* 0x1000-0x1FFF: key presses */ unsigned int scancode = hkey & 0xfff; *send_acpi_ev = true; *ignore_acpi_ev = false; /* * Original events are in the 0x10XX range, the adaptive keyboard * found in 2014 X1 Carbon emits events are of 0x11XX. In 2017 * models, additional keys are emitted through 0x13XX. */ switch ((hkey >> 8) & 0xf) { case 0: if (scancode > 0 && scancode <= TP_ACPI_HOTKEYSCAN_ADAPTIVE_START) { /* HKEY event 0x1001 is scancode 0x00 */ scancode--; if (!(hotkey_source_mask & (1 << scancode))) { tpacpi_input_send_key_masked(scancode); *send_acpi_ev = false; } else { *ignore_acpi_ev = true; } return true; } break; case 1: return adaptive_keyboard_hotkey_notify_hotkey(scancode); case 3: return hotkey_notify_extended_hotkey(hkey); } return false; } static bool hotkey_notify_wakeup(const u32 hkey, bool *send_acpi_ev, bool *ignore_acpi_ev) { /* 0x2000-0x2FFF: Wakeup reason */ *send_acpi_ev = true; *ignore_acpi_ev = false; switch (hkey) { case TP_HKEY_EV_WKUP_S3_UNDOCK: /* suspend, undock */ case TP_HKEY_EV_WKUP_S4_UNDOCK: /* hibernation, undock */ hotkey_wakeup_reason = TP_ACPI_WAKEUP_UNDOCK; *ignore_acpi_ev = true; break; case TP_HKEY_EV_WKUP_S3_BAYEJ: /* suspend, bay eject */ case TP_HKEY_EV_WKUP_S4_BAYEJ: /* hibernation, bay eject */ hotkey_wakeup_reason = TP_ACPI_WAKEUP_BAYEJ; *ignore_acpi_ev = true; break; case TP_HKEY_EV_WKUP_S3_BATLOW: /* Battery on critical low level/S3 */ case TP_HKEY_EV_WKUP_S4_BATLOW: /* Battery on critical low level/S4 */ pr_alert("EMERGENCY WAKEUP: battery almost empty\n"); /* how to auto-heal: */ /* 2313: woke up from S3, go to S4/S5 */ /* 2413: woke up from S4, go to S5 */ break; default: return false; } if (hotkey_wakeup_reason != TP_ACPI_WAKEUP_NONE) { pr_info("woke up due to a hot-unplug request...\n"); hotkey_wakeup_reason_notify_change(); } return true; } static bool hotkey_notify_dockevent(const u32 hkey, bool *send_acpi_ev, bool *ignore_acpi_ev) { /* 0x4000-0x4FFF: dock-related events */ *send_acpi_ev = true; *ignore_acpi_ev = false; switch (hkey) { case TP_HKEY_EV_UNDOCK_ACK: /* ACPI undock operation completed after wakeup */ hotkey_autosleep_ack = 1; pr_info("undocked\n"); hotkey_wakeup_hotunplug_complete_notify_change(); return true; case TP_HKEY_EV_HOTPLUG_DOCK: /* docked to port replicator */ pr_info("docked into hotplug port replicator\n"); return true; case TP_HKEY_EV_HOTPLUG_UNDOCK: /* undocked from port replicator */ pr_info("undocked from hotplug port replicator\n"); return true; /* * Deliberately ignore attaching and detaching the keybord cover to avoid * duplicates from intel-vbtn, which already emits SW_TABLET_MODE events * to userspace. * * Please refer to the following thread for more information and a preliminary * implementation using the GTOP ("Get Tablet OPtions") interface that could be * extended to other attachment options of the ThinkPad X1 Tablet series, such as * the Pico cartridge dock module: * https://lore.kernel.org/platform-driver-x86/38cb8265-1e30-d547-9e12-b4ae290be737@a-kobel.de/ */ case TP_HKEY_EV_KBD_COVER_ATTACH: case TP_HKEY_EV_KBD_COVER_DETACH: *send_acpi_ev = false; *ignore_acpi_ev = true; return true; default: return false; } } static bool hotkey_notify_usrevent(const u32 hkey, bool *send_acpi_ev, bool *ignore_acpi_ev) { /* 0x5000-0x5FFF: human interface helpers */ *send_acpi_ev = true; *ignore_acpi_ev = false; switch (hkey) { case TP_HKEY_EV_PEN_INSERTED: /* X61t: tablet pen inserted into bay */ case TP_HKEY_EV_PEN_REMOVED: /* X61t: tablet pen removed from bay */ return true; case TP_HKEY_EV_TABLET_TABLET: /* X41t-X61t: tablet mode */ case TP_HKEY_EV_TABLET_NOTEBOOK: /* X41t-X61t: normal mode */ tpacpi_input_send_tabletsw(); hotkey_tablet_mode_notify_change(); *send_acpi_ev = false; return true; case TP_HKEY_EV_LID_CLOSE: /* Lid closed */ case TP_HKEY_EV_LID_OPEN: /* Lid opened */ case TP_HKEY_EV_BRGHT_CHANGED: /* brightness changed */ /* do not propagate these events */ *ignore_acpi_ev = true; return true; default: return false; } } static void thermal_dump_all_sensors(void); static void palmsensor_refresh(void); static bool hotkey_notify_6xxx(const u32 hkey, bool *send_acpi_ev, bool *ignore_acpi_ev) { /* 0x6000-0x6FFF: thermal alarms/notices and keyboard events */ *send_acpi_ev = true; *ignore_acpi_ev = false; switch (hkey) { case TP_HKEY_EV_THM_TABLE_CHANGED: pr_debug("EC reports: Thermal Table has changed\n"); /* recommended action: do nothing, we don't have * Lenovo ATM information */ return true; case TP_HKEY_EV_THM_CSM_COMPLETED: pr_debug("EC reports: Thermal Control Command set completed (DYTC)\n"); /* Thermal event - pass on to event handler */ tpacpi_driver_event(hkey); return true; case TP_HKEY_EV_THM_TRANSFM_CHANGED: pr_debug("EC reports: Thermal Transformation changed (GMTS)\n"); /* recommended action: do nothing, we don't have * Lenovo ATM information */ return true; case TP_HKEY_EV_ALARM_BAT_HOT: pr_crit("THERMAL ALARM: battery is too hot!\n"); /* recommended action: warn user through gui */ break; case TP_HKEY_EV_ALARM_BAT_XHOT: pr_alert("THERMAL EMERGENCY: battery is extremely hot!\n"); /* recommended action: immediate sleep/hibernate */ break; case TP_HKEY_EV_ALARM_SENSOR_HOT: pr_crit("THERMAL ALARM: a sensor reports something is too hot!\n"); /* recommended action: warn user through gui, that */ /* some internal component is too hot */ break; case TP_HKEY_EV_ALARM_SENSOR_XHOT: pr_alert("THERMAL EMERGENCY: a sensor reports something is extremely hot!\n"); /* recommended action: immediate sleep/hibernate */ break; case TP_HKEY_EV_AC_CHANGED: /* X120e, X121e, X220, X220i, X220t, X230, T420, T420s, W520: * AC status changed; can be triggered by plugging or * unplugging AC adapter, docking or undocking. */ fallthrough; case TP_HKEY_EV_KEY_NUMLOCK: case TP_HKEY_EV_KEY_FN: /* key press events, we just ignore them as long as the EC * is still reporting them in the normal keyboard stream */ *send_acpi_ev = false; *ignore_acpi_ev = true; return true; case TP_HKEY_EV_KEY_FN_ESC: /* Get the media key status to force the status LED to update */ acpi_evalf(hkey_handle, NULL, "GMKS", "v"); *send_acpi_ev = false; *ignore_acpi_ev = true; return true; case TP_HKEY_EV_TABLET_CHANGED: tpacpi_input_send_tabletsw(); hotkey_tablet_mode_notify_change(); *send_acpi_ev = false; return true; case TP_HKEY_EV_PALM_DETECTED: case TP_HKEY_EV_PALM_UNDETECTED: /* palm detected - pass on to event handler */ palmsensor_refresh(); return true; default: /* report simply as unknown, no sensor dump */ return false; } thermal_dump_all_sensors(); return true; } static void hotkey_notify(struct ibm_struct *ibm, u32 event) { u32 hkey; bool send_acpi_ev; bool ignore_acpi_ev; bool known_ev; if (event != 0x80) { pr_err("unknown HKEY notification event %d\n", event); /* forward it to userspace, maybe it knows how to handle it */ acpi_bus_generate_netlink_event( ibm->acpi->device->pnp.device_class, dev_name(&ibm->acpi->device->dev), event, 0); return; } while (1) { if (!acpi_evalf(hkey_handle, &hkey, "MHKP", "d")) { pr_err("failed to retrieve HKEY event\n"); return; } if (hkey == 0) { /* queue empty */ return; } send_acpi_ev = true; ignore_acpi_ev = false; switch (hkey >> 12) { case 1: /* 0x1000-0x1FFF: key presses */ known_ev = hotkey_notify_hotkey(hkey, &send_acpi_ev, &ignore_acpi_ev); break; case 2: /* 0x2000-0x2FFF: Wakeup reason */ known_ev = hotkey_notify_wakeup(hkey, &send_acpi_ev, &ignore_acpi_ev); break; case 3: /* 0x3000-0x3FFF: bay-related wakeups */ switch (hkey) { case TP_HKEY_EV_BAYEJ_ACK: hotkey_autosleep_ack = 1; pr_info("bay ejected\n"); hotkey_wakeup_hotunplug_complete_notify_change(); known_ev = true; break; case TP_HKEY_EV_OPTDRV_EJ: /* FIXME: kick libata if SATA link offline */ known_ev = true; break; default: known_ev = false; } break; case 4: /* 0x4000-0x4FFF: dock-related events */ known_ev = hotkey_notify_dockevent(hkey, &send_acpi_ev, &ignore_acpi_ev); break; case 5: /* 0x5000-0x5FFF: human interface helpers */ known_ev = hotkey_notify_usrevent(hkey, &send_acpi_ev, &ignore_acpi_ev); break; case 6: /* 0x6000-0x6FFF: thermal alarms/notices and * keyboard events */ known_ev = hotkey_notify_6xxx(hkey, &send_acpi_ev, &ignore_acpi_ev); break; case 7: /* 0x7000-0x7FFF: misc */ if (tp_features.hotkey_wlsw && hkey == TP_HKEY_EV_RFKILL_CHANGED) { tpacpi_send_radiosw_update(); send_acpi_ev = 0; known_ev = true; break; } fallthrough; /* to default */ default: known_ev = false; } if (!known_ev) { pr_notice("unhandled HKEY event 0x%04x\n", hkey); pr_notice("please report the conditions when this event happened to %s\n", TPACPI_MAIL); } /* netlink events */ if (!ignore_acpi_ev && send_acpi_ev) { acpi_bus_generate_netlink_event( ibm->acpi->device->pnp.device_class, dev_name(&ibm->acpi->device->dev), event, hkey); } } } static void hotkey_suspend(void) { /* Do these on suspend, we get the events on early resume! */ hotkey_wakeup_reason = TP_ACPI_WAKEUP_NONE; hotkey_autosleep_ack = 0; /* save previous mode of adaptive keyboard of X1 Carbon */ if (tp_features.has_adaptive_kbd) { if (!acpi_evalf(hkey_handle, &adaptive_keyboard_prev_mode, "GTRW", "dd", 0)) { pr_err("Cannot read adaptive keyboard mode.\n"); } } } static void hotkey_resume(void) { tpacpi_disable_brightness_delay(); if (hotkey_status_set(true) < 0 || hotkey_mask_set(hotkey_acpi_mask) < 0) pr_err("error while attempting to reset the event firmware interface\n"); tpacpi_send_radiosw_update(); tpacpi_input_send_tabletsw(); hotkey_tablet_mode_notify_change(); hotkey_wakeup_reason_notify_change(); hotkey_wakeup_hotunplug_complete_notify_change(); hotkey_poll_setup_safe(false); /* restore previous mode of adapive keyboard of X1 Carbon */ if (tp_features.has_adaptive_kbd) { if (!acpi_evalf(hkey_handle, NULL, "STRW", "vd", adaptive_keyboard_prev_mode)) { pr_err("Cannot set adaptive keyboard mode.\n"); } } } /* procfs -------------------------------------------------------------- */ static int hotkey_read(struct seq_file *m) { int res, status; if (!tp_features.hotkey) { seq_printf(m, "status:\t\tnot supported\n"); return 0; } if (mutex_lock_killable(&hotkey_mutex)) return -ERESTARTSYS; res = hotkey_status_get(&status); if (!res) res = hotkey_mask_get(); mutex_unlock(&hotkey_mutex); if (res) return res; seq_printf(m, "status:\t\t%s\n", str_enabled_disabled(status & BIT(0))); if (hotkey_all_mask) { seq_printf(m, "mask:\t\t0x%08x\n", hotkey_user_mask); seq_printf(m, "commands:\tenable, disable, reset, <mask>\n"); } else { seq_printf(m, "mask:\t\tnot supported\n"); seq_printf(m, "commands:\tenable, disable, reset\n"); } return 0; } static void hotkey_enabledisable_warn(bool enable) { tpacpi_log_usertask("procfs hotkey enable/disable"); if (!WARN((tpacpi_lifecycle == TPACPI_LIFE_RUNNING || !enable), pr_fmt("hotkey enable/disable functionality has been removed from the driver. Hotkeys are always enabled.\n"))) pr_err("Please remove the hotkey=enable module parameter, it is deprecated. Hotkeys are always enabled.\n"); } static int hotkey_write(char *buf) { int res; u32 mask; char *cmd; if (!tp_features.hotkey) return -ENODEV; if (mutex_lock_killable(&hotkey_mutex)) return -ERESTARTSYS; mask = hotkey_user_mask; res = 0; while ((cmd = strsep(&buf, ","))) { if (strstarts(cmd, "enable")) { hotkey_enabledisable_warn(1); } else if (strstarts(cmd, "disable")) { hotkey_enabledisable_warn(0); res = -EPERM; } else if (strstarts(cmd, "reset")) { mask = (hotkey_all_mask | hotkey_source_mask) & ~hotkey_reserved_mask; } else if (sscanf(cmd, "0x%x", &mask) == 1) { /* mask set */ } else if (sscanf(cmd, "%x", &mask) == 1) { /* mask set */ } else { res = -EINVAL; goto errexit; } } if (!res) { tpacpi_disclose_usertask("procfs hotkey", "set mask to 0x%08x\n", mask); res = hotkey_user_mask_set(mask); } errexit: mutex_unlock(&hotkey_mutex); return res; } static const struct acpi_device_id ibm_htk_device_ids[] = { {TPACPI_ACPI_IBM_HKEY_HID, 0}, {TPACPI_ACPI_LENOVO_HKEY_HID, 0}, {TPACPI_ACPI_LENOVO_HKEY_V2_HID, 0}, {"", 0}, }; static struct tp_acpi_drv_struct ibm_hotkey_acpidriver = { .hid = ibm_htk_device_ids, .notify = hotkey_notify, .handle = &hkey_handle, .type = ACPI_DEVICE_NOTIFY, }; static struct ibm_struct hotkey_driver_data = { .name = "hotkey", .read = hotkey_read, .write = hotkey_write, .exit = hotkey_exit, .resume = hotkey_resume, .suspend = hotkey_suspend, .acpi = &ibm_hotkey_acpidriver, }; /************************************************************************* * Bluetooth subdriver */ enum { /* ACPI GBDC/SBDC bits */ TP_ACPI_BLUETOOTH_HWPRESENT = 0x01, /* Bluetooth hw available */ TP_ACPI_BLUETOOTH_RADIOSSW = 0x02, /* Bluetooth radio enabled */ TP_ACPI_BLUETOOTH_RESUMECTRL = 0x04, /* Bluetooth state at resume: 0 = disable, 1 = enable */ }; enum { /* ACPI \BLTH commands */ TP_ACPI_BLTH_GET_ULTRAPORT_ID = 0x00, /* Get Ultraport BT ID */ TP_ACPI_BLTH_GET_PWR_ON_RESUME = 0x01, /* Get power-on-resume state */ TP_ACPI_BLTH_PWR_ON_ON_RESUME = 0x02, /* Resume powered on */ TP_ACPI_BLTH_PWR_OFF_ON_RESUME = 0x03, /* Resume powered off */ TP_ACPI_BLTH_SAVE_STATE = 0x05, /* Save state for S4/S5 */ }; #define TPACPI_RFK_BLUETOOTH_SW_NAME "tpacpi_bluetooth_sw" static int bluetooth_get_status(void) { int status; #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES if (dbg_bluetoothemul) return (tpacpi_bluetooth_emulstate) ? TPACPI_RFK_RADIO_ON : TPACPI_RFK_RADIO_OFF; #endif if (!acpi_evalf(hkey_handle, &status, "GBDC", "d")) return -EIO; return ((status & TP_ACPI_BLUETOOTH_RADIOSSW) != 0) ? TPACPI_RFK_RADIO_ON : TPACPI_RFK_RADIO_OFF; } static int bluetooth_set_status(enum tpacpi_rfkill_state state) { int status; vdbg_printk(TPACPI_DBG_RFKILL, "will attempt to %s bluetooth\n", str_enable_disable(state == TPACPI_RFK_RADIO_ON)); #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES if (dbg_bluetoothemul) { tpacpi_bluetooth_emulstate = (state == TPACPI_RFK_RADIO_ON); return 0; } #endif if (state == TPACPI_RFK_RADIO_ON) status = TP_ACPI_BLUETOOTH_RADIOSSW | TP_ACPI_BLUETOOTH_RESUMECTRL; else status = 0; if (!acpi_evalf(hkey_handle, NULL, "SBDC", "vd", status)) return -EIO; return 0; } /* sysfs bluetooth enable ---------------------------------------------- */ static ssize_t bluetooth_enable_show(struct device *dev, struct device_attribute *attr, char *buf) { return tpacpi_rfk_sysfs_enable_show(TPACPI_RFK_BLUETOOTH_SW_ID, attr, buf); } static ssize_t bluetooth_enable_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { return tpacpi_rfk_sysfs_enable_store(TPACPI_RFK_BLUETOOTH_SW_ID, attr, buf, count); } static DEVICE_ATTR_RW(bluetooth_enable); /* --------------------------------------------------------------------- */ static struct attribute *bluetooth_attributes[] = { &dev_attr_bluetooth_enable.attr, NULL }; static umode_t bluetooth_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { return tp_features.bluetooth ? attr->mode : 0; } static const struct attribute_group bluetooth_attr_group = { .is_visible = bluetooth_attr_is_visible, .attrs = bluetooth_attributes, }; static const struct tpacpi_rfk_ops bluetooth_tprfk_ops = { .get_status = bluetooth_get_status, .set_status = bluetooth_set_status, }; static void bluetooth_shutdown(void) { /* Order firmware to save current state to NVRAM */ if (!acpi_evalf(NULL, NULL, "\\BLTH", "vd", TP_ACPI_BLTH_SAVE_STATE)) pr_notice("failed to save bluetooth state to NVRAM\n"); else vdbg_printk(TPACPI_DBG_RFKILL, "bluetooth state saved to NVRAM\n"); } static void bluetooth_exit(void) { tpacpi_destroy_rfkill(TPACPI_RFK_BLUETOOTH_SW_ID); bluetooth_shutdown(); } static const struct dmi_system_id fwbug_list[] __initconst = { { .ident = "ThinkPad E485", .driver_data = &quirk_btusb_bug, .matches = { DMI_MATCH(DMI_SYS_VENDOR, "LENOVO"), DMI_MATCH(DMI_BOARD_NAME, "20KU"), }, }, { .ident = "ThinkPad E585", .driver_data = &quirk_btusb_bug, .matches = { DMI_MATCH(DMI_SYS_VENDOR, "LENOVO"), DMI_MATCH(DMI_BOARD_NAME, "20KV"), }, }, { .ident = "ThinkPad A285 - 20MW", .driver_data = &quirk_btusb_bug, .matches = { DMI_MATCH(DMI_SYS_VENDOR, "LENOVO"), DMI_MATCH(DMI_BOARD_NAME, "20MW"), }, }, { .ident = "ThinkPad A285 - 20MX", .driver_data = &quirk_btusb_bug, .matches = { DMI_MATCH(DMI_SYS_VENDOR, "LENOVO"), DMI_MATCH(DMI_BOARD_NAME, "20MX"), }, }, { .ident = "ThinkPad A485 - 20MU", .driver_data = &quirk_btusb_bug, .matches = { DMI_MATCH(DMI_SYS_VENDOR, "LENOVO"), DMI_MATCH(DMI_BOARD_NAME, "20MU"), }, }, { .ident = "ThinkPad A485 - 20MV", .driver_data = &quirk_btusb_bug, .matches = { DMI_MATCH(DMI_SYS_VENDOR, "LENOVO"), DMI_MATCH(DMI_BOARD_NAME, "20MV"), }, }, { .ident = "L14 Gen2 AMD", .driver_data = &quirk_s2idle_bug, .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "LENOVO"), DMI_MATCH(DMI_PRODUCT_NAME, "20X5"), } }, { .ident = "T14s Gen2 AMD", .driver_data = &quirk_s2idle_bug, .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "LENOVO"), DMI_MATCH(DMI_PRODUCT_NAME, "20XF"), } }, { .ident = "X13 Gen2 AMD", .driver_data = &quirk_s2idle_bug, .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "LENOVO"), DMI_MATCH(DMI_PRODUCT_NAME, "20XH"), } }, { .ident = "T14 Gen2 AMD", .driver_data = &quirk_s2idle_bug, .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "LENOVO"), DMI_MATCH(DMI_PRODUCT_NAME, "20XK"), } }, { .ident = "T14 Gen1 AMD", .driver_data = &quirk_s2idle_bug, .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "LENOVO"), DMI_MATCH(DMI_PRODUCT_NAME, "20UD"), } }, { .ident = "T14 Gen1 AMD", .driver_data = &quirk_s2idle_bug, .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "LENOVO"), DMI_MATCH(DMI_PRODUCT_NAME, "20UE"), } }, { .ident = "T14s Gen1 AMD", .driver_data = &quirk_s2idle_bug, .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "LENOVO"), DMI_MATCH(DMI_PRODUCT_NAME, "20UH"), } }, { .ident = "T14s Gen1 AMD", .driver_data = &quirk_s2idle_bug, .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "LENOVO"), DMI_MATCH(DMI_PRODUCT_NAME, "20UJ"), } }, { .ident = "P14s Gen1 AMD", .driver_data = &quirk_s2idle_bug, .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "LENOVO"), DMI_MATCH(DMI_PRODUCT_NAME, "20Y1"), } }, { .ident = "P14s Gen2 AMD", .driver_data = &quirk_s2idle_bug, .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "LENOVO"), DMI_MATCH(DMI_PRODUCT_NAME, "21A0"), } }, { .ident = "P14s Gen2 AMD", .driver_data = &quirk_s2idle_bug, .matches = { DMI_MATCH(DMI_BOARD_VENDOR, "LENOVO"), DMI_MATCH(DMI_PRODUCT_NAME, "21A1"), } }, {} }; #ifdef CONFIG_SUSPEND /* * Lenovo laptops from a variety of generations run a SMI handler during the D3->D0 * transition that occurs specifically when exiting suspend to idle which can cause * large delays during resume when the IOMMU translation layer is enabled (the default * behavior) for NVME devices: * * To avoid this firmware problem, skip the SMI handler on these machines before the * D0 transition occurs. */ static void thinkpad_acpi_amd_s2idle_restore(void) { struct resource *res; void __iomem *addr; u8 val; res = request_mem_region_muxed(tp_features.quirks->s2idle_bug_mmio, 1, "thinkpad_acpi_pm80"); if (!res) return; addr = ioremap(tp_features.quirks->s2idle_bug_mmio, 1); if (!addr) goto cleanup_resource; val = ioread8(addr); iowrite8(val & ~BIT(0), addr); iounmap(addr); cleanup_resource: release_resource(res); kfree(res); } static struct acpi_s2idle_dev_ops thinkpad_acpi_s2idle_dev_ops = { .restore = thinkpad_acpi_amd_s2idle_restore, }; #endif static const struct pci_device_id fwbug_cards_ids[] __initconst = { { PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x24F3) }, { PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x24FD) }, { PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2526) }, {} }; static int __init have_bt_fwbug(void) { /* * Some AMD based ThinkPads have a firmware bug that calling * "GBDC" will cause bluetooth on Intel wireless cards blocked */ if (tp_features.quirks && tp_features.quirks->btusb_bug && pci_dev_present(fwbug_cards_ids)) { vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_RFKILL, FW_BUG "disable bluetooth subdriver for Intel cards\n"); return 1; } else return 0; } static int __init bluetooth_init(struct ibm_init_struct *iibm) { int res; int status = 0; vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_RFKILL, "initializing bluetooth subdriver\n"); TPACPI_ACPIHANDLE_INIT(hkey); /* bluetooth not supported on 570, 600e/x, 770e, 770x, A21e, A2xm/p, G4x, R30, R31, R40e, R50e, T20-22, X20-21 */ tp_features.bluetooth = !have_bt_fwbug() && hkey_handle && acpi_evalf(hkey_handle, &status, "GBDC", "qd"); vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_RFKILL, "bluetooth is %s, status 0x%02x\n", str_supported(tp_features.bluetooth), status); #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES if (dbg_bluetoothemul) { tp_features.bluetooth = 1; pr_info("bluetooth switch emulation enabled\n"); } else #endif if (tp_features.bluetooth && !(status & TP_ACPI_BLUETOOTH_HWPRESENT)) { /* no bluetooth hardware present in system */ tp_features.bluetooth = 0; dbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_RFKILL, "bluetooth hardware not installed\n"); } if (!tp_features.bluetooth) return -ENODEV; res = tpacpi_new_rfkill(TPACPI_RFK_BLUETOOTH_SW_ID, &bluetooth_tprfk_ops, RFKILL_TYPE_BLUETOOTH, TPACPI_RFK_BLUETOOTH_SW_NAME, true); return res; } /* procfs -------------------------------------------------------------- */ static int bluetooth_read(struct seq_file *m) { return tpacpi_rfk_procfs_read(TPACPI_RFK_BLUETOOTH_SW_ID, m); } static int bluetooth_write(char *buf) { return tpacpi_rfk_procfs_write(TPACPI_RFK_BLUETOOTH_SW_ID, buf); } static struct ibm_struct bluetooth_driver_data = { .name = "bluetooth", .read = bluetooth_read, .write = bluetooth_write, .exit = bluetooth_exit, .shutdown = bluetooth_shutdown, }; /************************************************************************* * Wan subdriver */ enum { /* ACPI GWAN/SWAN bits */ TP_ACPI_WANCARD_HWPRESENT = 0x01, /* Wan hw available */ TP_ACPI_WANCARD_RADIOSSW = 0x02, /* Wan radio enabled */ TP_ACPI_WANCARD_RESUMECTRL = 0x04, /* Wan state at resume: 0 = disable, 1 = enable */ }; #define TPACPI_RFK_WWAN_SW_NAME "tpacpi_wwan_sw" static int wan_get_status(void) { int status; #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES if (dbg_wwanemul) return (tpacpi_wwan_emulstate) ? TPACPI_RFK_RADIO_ON : TPACPI_RFK_RADIO_OFF; #endif if (!acpi_evalf(hkey_handle, &status, "GWAN", "d")) return -EIO; return ((status & TP_ACPI_WANCARD_RADIOSSW) != 0) ? TPACPI_RFK_RADIO_ON : TPACPI_RFK_RADIO_OFF; } static int wan_set_status(enum tpacpi_rfkill_state state) { int status; vdbg_printk(TPACPI_DBG_RFKILL, "will attempt to %s wwan\n", str_enable_disable(state == TPACPI_RFK_RADIO_ON)); #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES if (dbg_wwanemul) { tpacpi_wwan_emulstate = (state == TPACPI_RFK_RADIO_ON); return 0; } #endif if (state == TPACPI_RFK_RADIO_ON) status = TP_ACPI_WANCARD_RADIOSSW | TP_ACPI_WANCARD_RESUMECTRL; else status = 0; if (!acpi_evalf(hkey_handle, NULL, "SWAN", "vd", status)) return -EIO; return 0; } /* sysfs wan enable ---------------------------------------------------- */ static ssize_t wan_enable_show(struct device *dev, struct device_attribute *attr, char *buf) { return tpacpi_rfk_sysfs_enable_show(TPACPI_RFK_WWAN_SW_ID, attr, buf); } static ssize_t wan_enable_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { return tpacpi_rfk_sysfs_enable_store(TPACPI_RFK_WWAN_SW_ID, attr, buf, count); } static DEVICE_ATTR(wwan_enable, S_IWUSR | S_IRUGO, wan_enable_show, wan_enable_store); /* --------------------------------------------------------------------- */ static struct attribute *wan_attributes[] = { &dev_attr_wwan_enable.attr, NULL }; static umode_t wan_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { return tp_features.wan ? attr->mode : 0; } static const struct attribute_group wan_attr_group = { .is_visible = wan_attr_is_visible, .attrs = wan_attributes, }; static const struct tpacpi_rfk_ops wan_tprfk_ops = { .get_status = wan_get_status, .set_status = wan_set_status, }; static void wan_shutdown(void) { /* Order firmware to save current state to NVRAM */ if (!acpi_evalf(NULL, NULL, "\\WGSV", "vd", TP_ACPI_WGSV_SAVE_STATE)) pr_notice("failed to save WWAN state to NVRAM\n"); else vdbg_printk(TPACPI_DBG_RFKILL, "WWAN state saved to NVRAM\n"); } static void wan_exit(void) { tpacpi_destroy_rfkill(TPACPI_RFK_WWAN_SW_ID); wan_shutdown(); } static int __init wan_init(struct ibm_init_struct *iibm) { int res; int status = 0; vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_RFKILL, "initializing wan subdriver\n"); TPACPI_ACPIHANDLE_INIT(hkey); tp_features.wan = hkey_handle && acpi_evalf(hkey_handle, &status, "GWAN", "qd"); vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_RFKILL, "wan is %s, status 0x%02x\n", str_supported(tp_features.wan), status); #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES if (dbg_wwanemul) { tp_features.wan = 1; pr_info("wwan switch emulation enabled\n"); } else #endif if (tp_features.wan && !(status & TP_ACPI_WANCARD_HWPRESENT)) { /* no wan hardware present in system */ tp_features.wan = 0; dbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_RFKILL, "wan hardware not installed\n"); } if (!tp_features.wan) return -ENODEV; res = tpacpi_new_rfkill(TPACPI_RFK_WWAN_SW_ID, &wan_tprfk_ops, RFKILL_TYPE_WWAN, TPACPI_RFK_WWAN_SW_NAME, true); return res; } /* procfs -------------------------------------------------------------- */ static int wan_read(struct seq_file *m) { return tpacpi_rfk_procfs_read(TPACPI_RFK_WWAN_SW_ID, m); } static int wan_write(char *buf) { return tpacpi_rfk_procfs_write(TPACPI_RFK_WWAN_SW_ID, buf); } static struct ibm_struct wan_driver_data = { .name = "wan", .read = wan_read, .write = wan_write, .exit = wan_exit, .shutdown = wan_shutdown, }; /************************************************************************* * UWB subdriver */ enum { /* ACPI GUWB/SUWB bits */ TP_ACPI_UWB_HWPRESENT = 0x01, /* UWB hw available */ TP_ACPI_UWB_RADIOSSW = 0x02, /* UWB radio enabled */ }; #define TPACPI_RFK_UWB_SW_NAME "tpacpi_uwb_sw" static int uwb_get_status(void) { int status; #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES if (dbg_uwbemul) return (tpacpi_uwb_emulstate) ? TPACPI_RFK_RADIO_ON : TPACPI_RFK_RADIO_OFF; #endif if (!acpi_evalf(hkey_handle, &status, "GUWB", "d")) return -EIO; return ((status & TP_ACPI_UWB_RADIOSSW) != 0) ? TPACPI_RFK_RADIO_ON : TPACPI_RFK_RADIO_OFF; } static int uwb_set_status(enum tpacpi_rfkill_state state) { int status; vdbg_printk(TPACPI_DBG_RFKILL, "will attempt to %s UWB\n", str_enable_disable(state == TPACPI_RFK_RADIO_ON)); #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES if (dbg_uwbemul) { tpacpi_uwb_emulstate = (state == TPACPI_RFK_RADIO_ON); return 0; } #endif if (state == TPACPI_RFK_RADIO_ON) status = TP_ACPI_UWB_RADIOSSW; else status = 0; if (!acpi_evalf(hkey_handle, NULL, "SUWB", "vd", status)) return -EIO; return 0; } /* --------------------------------------------------------------------- */ static const struct tpacpi_rfk_ops uwb_tprfk_ops = { .get_status = uwb_get_status, .set_status = uwb_set_status, }; static void uwb_exit(void) { tpacpi_destroy_rfkill(TPACPI_RFK_UWB_SW_ID); } static int __init uwb_init(struct ibm_init_struct *iibm) { int res; int status = 0; vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_RFKILL, "initializing uwb subdriver\n"); TPACPI_ACPIHANDLE_INIT(hkey); tp_features.uwb = hkey_handle && acpi_evalf(hkey_handle, &status, "GUWB", "qd"); vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_RFKILL, "uwb is %s, status 0x%02x\n", str_supported(tp_features.uwb), status); #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES if (dbg_uwbemul) { tp_features.uwb = 1; pr_info("uwb switch emulation enabled\n"); } else #endif if (tp_features.uwb && !(status & TP_ACPI_UWB_HWPRESENT)) { /* no uwb hardware present in system */ tp_features.uwb = 0; dbg_printk(TPACPI_DBG_INIT, "uwb hardware not installed\n"); } if (!tp_features.uwb) return -ENODEV; res = tpacpi_new_rfkill(TPACPI_RFK_UWB_SW_ID, &uwb_tprfk_ops, RFKILL_TYPE_UWB, TPACPI_RFK_UWB_SW_NAME, false); return res; } static struct ibm_struct uwb_driver_data = { .name = "uwb", .exit = uwb_exit, .flags.experimental = 1, }; /************************************************************************* * Video subdriver */ #ifdef CONFIG_THINKPAD_ACPI_VIDEO enum video_access_mode { TPACPI_VIDEO_NONE = 0, TPACPI_VIDEO_570, /* 570 */ TPACPI_VIDEO_770, /* 600e/x, 770e, 770x */ TPACPI_VIDEO_NEW, /* all others */ }; enum { /* video status flags, based on VIDEO_570 */ TP_ACPI_VIDEO_S_LCD = 0x01, /* LCD output enabled */ TP_ACPI_VIDEO_S_CRT = 0x02, /* CRT output enabled */ TP_ACPI_VIDEO_S_DVI = 0x08, /* DVI output enabled */ }; enum { /* TPACPI_VIDEO_570 constants */ TP_ACPI_VIDEO_570_PHSCMD = 0x87, /* unknown magic constant :( */ TP_ACPI_VIDEO_570_PHSMASK = 0x03, /* PHS bits that map to * video_status_flags */ TP_ACPI_VIDEO_570_PHS2CMD = 0x8b, /* unknown magic constant :( */ TP_ACPI_VIDEO_570_PHS2SET = 0x80, /* unknown magic constant :( */ }; static enum video_access_mode video_supported; static int video_orig_autosw; static int video_autosw_get(void); static int video_autosw_set(int enable); TPACPI_HANDLE(vid, root, "\\_SB.PCI.AGP.VGA", /* 570 */ "\\_SB.PCI0.AGP0.VID0", /* 600e/x, 770x */ "\\_SB.PCI0.VID0", /* 770e */ "\\_SB.PCI0.VID", /* A21e, G4x, R50e, X30, X40 */ "\\_SB.PCI0.AGP.VGA", /* X100e and a few others */ "\\_SB.PCI0.AGP.VID", /* all others */ ); /* R30, R31 */ TPACPI_HANDLE(vid2, root, "\\_SB.PCI0.AGPB.VID"); /* G41 */ static int __init video_init(struct ibm_init_struct *iibm) { int ivga; vdbg_printk(TPACPI_DBG_INIT, "initializing video subdriver\n"); TPACPI_ACPIHANDLE_INIT(vid); if (tpacpi_is_ibm()) TPACPI_ACPIHANDLE_INIT(vid2); if (vid2_handle && acpi_evalf(NULL, &ivga, "\\IVGA", "d") && ivga) /* G41, assume IVGA doesn't change */ vid_handle = vid2_handle; if (!vid_handle) /* video switching not supported on R30, R31 */ video_supported = TPACPI_VIDEO_NONE; else if (tpacpi_is_ibm() && acpi_evalf(vid_handle, &video_orig_autosw, "SWIT", "qd")) /* 570 */ video_supported = TPACPI_VIDEO_570; else if (tpacpi_is_ibm() && acpi_evalf(vid_handle, &video_orig_autosw, "^VADL", "qd")) /* 600e/x, 770e, 770x */ video_supported = TPACPI_VIDEO_770; else /* all others */ video_supported = TPACPI_VIDEO_NEW; vdbg_printk(TPACPI_DBG_INIT, "video is %s, mode %d\n", str_supported(video_supported != TPACPI_VIDEO_NONE), video_supported); return (video_supported != TPACPI_VIDEO_NONE) ? 0 : -ENODEV; } static void video_exit(void) { dbg_printk(TPACPI_DBG_EXIT, "restoring original video autoswitch mode\n"); if (video_autosw_set(video_orig_autosw)) pr_err("error while trying to restore original video autoswitch mode\n"); } static int video_outputsw_get(void) { int status = 0; int i; switch (video_supported) { case TPACPI_VIDEO_570: if (!acpi_evalf(NULL, &i, "\\_SB.PHS", "dd", TP_ACPI_VIDEO_570_PHSCMD)) return -EIO; status = i & TP_ACPI_VIDEO_570_PHSMASK; break; case TPACPI_VIDEO_770: if (!acpi_evalf(NULL, &i, "\\VCDL", "d")) return -EIO; if (i) status |= TP_ACPI_VIDEO_S_LCD; if (!acpi_evalf(NULL, &i, "\\VCDC", "d")) return -EIO; if (i) status |= TP_ACPI_VIDEO_S_CRT; break; case TPACPI_VIDEO_NEW: if (!acpi_evalf(NULL, NULL, "\\VUPS", "vd", 1) || !acpi_evalf(NULL, &i, "\\VCDC", "d")) return -EIO; if (i) status |= TP_ACPI_VIDEO_S_CRT; if (!acpi_evalf(NULL, NULL, "\\VUPS", "vd", 0) || !acpi_evalf(NULL, &i, "\\VCDL", "d")) return -EIO; if (i) status |= TP_ACPI_VIDEO_S_LCD; if (!acpi_evalf(NULL, &i, "\\VCDD", "d")) return -EIO; if (i) status |= TP_ACPI_VIDEO_S_DVI; break; default: return -ENOSYS; } return status; } static int video_outputsw_set(int status) { int autosw; int res = 0; switch (video_supported) { case TPACPI_VIDEO_570: res = acpi_evalf(NULL, NULL, "\\_SB.PHS2", "vdd", TP_ACPI_VIDEO_570_PHS2CMD, status | TP_ACPI_VIDEO_570_PHS2SET); break; case TPACPI_VIDEO_770: autosw = video_autosw_get(); if (autosw < 0) return autosw; res = video_autosw_set(1); if (res) return res; res = acpi_evalf(vid_handle, NULL, "ASWT", "vdd", status * 0x100, 0); if (!autosw && video_autosw_set(autosw)) { pr_err("video auto-switch left enabled due to error\n"); return -EIO; } break; case TPACPI_VIDEO_NEW: res = acpi_evalf(NULL, NULL, "\\VUPS", "vd", 0x80) && acpi_evalf(NULL, NULL, "\\VSDS", "vdd", status, 1); break; default: return -ENOSYS; } return (res) ? 0 : -EIO; } static int video_autosw_get(void) { int autosw = 0; switch (video_supported) { case TPACPI_VIDEO_570: if (!acpi_evalf(vid_handle, &autosw, "SWIT", "d")) return -EIO; break; case TPACPI_VIDEO_770: case TPACPI_VIDEO_NEW: if (!acpi_evalf(vid_handle, &autosw, "^VDEE", "d")) return -EIO; break; default: return -ENOSYS; } return autosw & 1; } static int video_autosw_set(int enable) { if (!acpi_evalf(vid_handle, NULL, "_DOS", "vd", (enable) ? 1 : 0)) return -EIO; return 0; } static int video_outputsw_cycle(void) { int autosw = video_autosw_get(); int res; if (autosw < 0) return autosw; switch (video_supported) { case TPACPI_VIDEO_570: res = video_autosw_set(1); if (res) return res; res = acpi_evalf(ec_handle, NULL, "_Q16", "v"); break; case TPACPI_VIDEO_770: case TPACPI_VIDEO_NEW: res = video_autosw_set(1); if (res) return res; res = acpi_evalf(vid_handle, NULL, "VSWT", "v"); break; default: return -ENOSYS; } if (!autosw && video_autosw_set(autosw)) { pr_err("video auto-switch left enabled due to error\n"); return -EIO; } return (res) ? 0 : -EIO; } static int video_expand_toggle(void) { switch (video_supported) { case TPACPI_VIDEO_570: return acpi_evalf(ec_handle, NULL, "_Q17", "v") ? 0 : -EIO; case TPACPI_VIDEO_770: return acpi_evalf(vid_handle, NULL, "VEXP", "v") ? 0 : -EIO; case TPACPI_VIDEO_NEW: return acpi_evalf(NULL, NULL, "\\VEXP", "v") ? 0 : -EIO; default: return -ENOSYS; } /* not reached */ } static int video_read(struct seq_file *m) { int status, autosw; if (video_supported == TPACPI_VIDEO_NONE) { seq_printf(m, "status:\t\tnot supported\n"); return 0; } /* Even reads can crash X.org, so... */ if (!capable(CAP_SYS_ADMIN)) return -EPERM; status = video_outputsw_get(); if (status < 0) return status; autosw = video_autosw_get(); if (autosw < 0) return autosw; seq_printf(m, "status:\t\tsupported\n"); seq_printf(m, "lcd:\t\t%s\n", str_enabled_disabled(status & BIT(0))); seq_printf(m, "crt:\t\t%s\n", str_enabled_disabled(status & BIT(1))); if (video_supported == TPACPI_VIDEO_NEW) seq_printf(m, "dvi:\t\t%s\n", str_enabled_disabled(status & BIT(3))); seq_printf(m, "auto:\t\t%s\n", str_enabled_disabled(autosw & BIT(0))); seq_printf(m, "commands:\tlcd_enable, lcd_disable\n"); seq_printf(m, "commands:\tcrt_enable, crt_disable\n"); if (video_supported == TPACPI_VIDEO_NEW) seq_printf(m, "commands:\tdvi_enable, dvi_disable\n"); seq_printf(m, "commands:\tauto_enable, auto_disable\n"); seq_printf(m, "commands:\tvideo_switch, expand_toggle\n"); return 0; } static int video_write(char *buf) { char *cmd; int enable, disable, status; int res; if (video_supported == TPACPI_VIDEO_NONE) return -ENODEV; /* Even reads can crash X.org, let alone writes... */ if (!capable(CAP_SYS_ADMIN)) return -EPERM; enable = 0; disable = 0; while ((cmd = strsep(&buf, ","))) { if (strstarts(cmd, "lcd_enable")) { enable |= TP_ACPI_VIDEO_S_LCD; } else if (strstarts(cmd, "lcd_disable")) { disable |= TP_ACPI_VIDEO_S_LCD; } else if (strstarts(cmd, "crt_enable")) { enable |= TP_ACPI_VIDEO_S_CRT; } else if (strstarts(cmd, "crt_disable")) { disable |= TP_ACPI_VIDEO_S_CRT; } else if (video_supported == TPACPI_VIDEO_NEW && strstarts(cmd, "dvi_enable")) { enable |= TP_ACPI_VIDEO_S_DVI; } else if (video_supported == TPACPI_VIDEO_NEW && strstarts(cmd, "dvi_disable")) { disable |= TP_ACPI_VIDEO_S_DVI; } else if (strstarts(cmd, "auto_enable")) { res = video_autosw_set(1); if (res) return res; } else if (strstarts(cmd, "auto_disable")) { res = video_autosw_set(0); if (res) return res; } else if (strstarts(cmd, "video_switch")) { res = video_outputsw_cycle(); if (res) return res; } else if (strstarts(cmd, "expand_toggle")) { res = video_expand_toggle(); if (res) return res; } else return -EINVAL; } if (enable || disable) { status = video_outputsw_get(); if (status < 0) return status; res = video_outputsw_set((status & ~disable) | enable); if (res) return res; } return 0; } static struct ibm_struct video_driver_data = { .name = "video", .read = video_read, .write = video_write, .exit = video_exit, }; #endif /* CONFIG_THINKPAD_ACPI_VIDEO */ /************************************************************************* * Keyboard backlight subdriver */ static enum led_brightness kbdlight_brightness; static DEFINE_MUTEX(kbdlight_mutex); static int kbdlight_set_level(int level) { int ret = 0; if (!hkey_handle) return -ENXIO; mutex_lock(&kbdlight_mutex); if (!acpi_evalf(hkey_handle, NULL, "MLCS", "dd", level)) ret = -EIO; else kbdlight_brightness = level; mutex_unlock(&kbdlight_mutex); return ret; } static int kbdlight_get_level(void) { int status = 0; if (!hkey_handle) return -ENXIO; if (!acpi_evalf(hkey_handle, &status, "MLCG", "dd", 0)) return -EIO; if (status < 0) return status; return status & 0x3; } static bool kbdlight_is_supported(void) { int status = 0; if (!hkey_handle) return false; if (!acpi_has_method(hkey_handle, "MLCG")) { vdbg_printk(TPACPI_DBG_INIT, "kbdlight MLCG is unavailable\n"); return false; } if (!acpi_evalf(hkey_handle, &status, "MLCG", "qdd", 0)) { vdbg_printk(TPACPI_DBG_INIT, "kbdlight MLCG failed\n"); return false; } if (status < 0) { vdbg_printk(TPACPI_DBG_INIT, "kbdlight MLCG err: %d\n", status); return false; } vdbg_printk(TPACPI_DBG_INIT, "kbdlight MLCG returned 0x%x\n", status); /* * Guessed test for keyboard backlight: * * Machines with backlight keyboard return: * b010100000010000000XX - ThinkPad X1 Carbon 3rd * b110100010010000000XX - ThinkPad x230 * b010100000010000000XX - ThinkPad x240 * b010100000010000000XX - ThinkPad W541 * (XX is current backlight level) * * Machines without backlight keyboard return: * b10100001000000000000 - ThinkPad x230 * b10110001000000000000 - ThinkPad E430 * b00000000000000000000 - ThinkPad E450 * * Candidate BITs for detection test (XOR): * b01000000001000000000 * ^ */ return status & BIT(9); } static int kbdlight_sysfs_set(struct led_classdev *led_cdev, enum led_brightness brightness) { return kbdlight_set_level(brightness); } static enum led_brightness kbdlight_sysfs_get(struct led_classdev *led_cdev) { int level; level = kbdlight_get_level(); if (level < 0) return 0; return level; } static struct tpacpi_led_classdev tpacpi_led_kbdlight = { .led_classdev = { .name = "tpacpi::kbd_backlight", .max_brightness = 2, .flags = LED_BRIGHT_HW_CHANGED, .brightness_set_blocking = &kbdlight_sysfs_set, .brightness_get = &kbdlight_sysfs_get, } }; static int __init kbdlight_init(struct ibm_init_struct *iibm) { int rc; vdbg_printk(TPACPI_DBG_INIT, "initializing kbdlight subdriver\n"); TPACPI_ACPIHANDLE_INIT(hkey); if (!kbdlight_is_supported()) { tp_features.kbdlight = 0; vdbg_printk(TPACPI_DBG_INIT, "kbdlight is unsupported\n"); return -ENODEV; } kbdlight_brightness = kbdlight_sysfs_get(NULL); tp_features.kbdlight = 1; rc = led_classdev_register(&tpacpi_pdev->dev, &tpacpi_led_kbdlight.led_classdev); if (rc < 0) { tp_features.kbdlight = 0; return rc; } tpacpi_hotkey_driver_mask_set(hotkey_driver_mask | TP_ACPI_HKEY_KBD_LIGHT_MASK); return 0; } static void kbdlight_exit(void) { led_classdev_unregister(&tpacpi_led_kbdlight.led_classdev); } static int kbdlight_set_level_and_update(int level) { int ret; struct led_classdev *led_cdev; ret = kbdlight_set_level(level); led_cdev = &tpacpi_led_kbdlight.led_classdev; if (ret == 0 && !(led_cdev->flags & LED_SUSPENDED)) led_cdev->brightness = level; return ret; } static int kbdlight_read(struct seq_file *m) { int level; if (!tp_features.kbdlight) { seq_printf(m, "status:\t\tnot supported\n"); } else { level = kbdlight_get_level(); if (level < 0) seq_printf(m, "status:\t\terror %d\n", level); else seq_printf(m, "status:\t\t%d\n", level); seq_printf(m, "commands:\t0, 1, 2\n"); } return 0; } static int kbdlight_write(char *buf) { char *cmd; int res, level = -EINVAL; if (!tp_features.kbdlight) return -ENODEV; while ((cmd = strsep(&buf, ","))) { res = kstrtoint(cmd, 10, &level); if (res < 0) return res; } if (level >= 3 || level < 0) return -EINVAL; return kbdlight_set_level_and_update(level); } static void kbdlight_suspend(void) { struct led_classdev *led_cdev; if (!tp_features.kbdlight) return; led_cdev = &tpacpi_led_kbdlight.led_classdev; led_update_brightness(led_cdev); led_classdev_suspend(led_cdev); } static void kbdlight_resume(void) { if (!tp_features.kbdlight) return; led_classdev_resume(&tpacpi_led_kbdlight.led_classdev); } static struct ibm_struct kbdlight_driver_data = { .name = "kbdlight", .read = kbdlight_read, .write = kbdlight_write, .suspend = kbdlight_suspend, .resume = kbdlight_resume, .exit = kbdlight_exit, }; /************************************************************************* * Light (thinklight) subdriver */ TPACPI_HANDLE(lght, root, "\\LGHT"); /* A21e, A2xm/p, T20-22, X20-21 */ TPACPI_HANDLE(ledb, ec, "LEDB"); /* G4x */ static int light_get_status(void) { int status = 0; if (tp_features.light_status) { if (!acpi_evalf(ec_handle, &status, "KBLT", "d")) return -EIO; return (!!status); } return -ENXIO; } static int light_set_status(int status) { int rc; if (tp_features.light) { if (cmos_handle) { rc = acpi_evalf(cmos_handle, NULL, NULL, "vd", (status) ? TP_CMOS_THINKLIGHT_ON : TP_CMOS_THINKLIGHT_OFF); } else { rc = acpi_evalf(lght_handle, NULL, NULL, "vd", (status) ? 1 : 0); } return (rc) ? 0 : -EIO; } return -ENXIO; } static int light_sysfs_set(struct led_classdev *led_cdev, enum led_brightness brightness) { return light_set_status((brightness != LED_OFF) ? TPACPI_LED_ON : TPACPI_LED_OFF); } static enum led_brightness light_sysfs_get(struct led_classdev *led_cdev) { return (light_get_status() == 1) ? LED_ON : LED_OFF; } static struct tpacpi_led_classdev tpacpi_led_thinklight = { .led_classdev = { .name = "tpacpi::thinklight", .max_brightness = 1, .brightness_set_blocking = &light_sysfs_set, .brightness_get = &light_sysfs_get, } }; static int __init light_init(struct ibm_init_struct *iibm) { int rc; vdbg_printk(TPACPI_DBG_INIT, "initializing light subdriver\n"); if (tpacpi_is_ibm()) { TPACPI_ACPIHANDLE_INIT(ledb); TPACPI_ACPIHANDLE_INIT(lght); } TPACPI_ACPIHANDLE_INIT(cmos); /* light not supported on 570, 600e/x, 770e, 770x, G4x, R30, R31 */ tp_features.light = (cmos_handle || lght_handle) && !ledb_handle; if (tp_features.light) /* light status not supported on 570, 600e/x, 770e, 770x, G4x, R30, R31, R32, X20 */ tp_features.light_status = acpi_evalf(ec_handle, NULL, "KBLT", "qv"); vdbg_printk(TPACPI_DBG_INIT, "light is %s, light status is %s\n", str_supported(tp_features.light), str_supported(tp_features.light_status)); if (!tp_features.light) return -ENODEV; rc = led_classdev_register(&tpacpi_pdev->dev, &tpacpi_led_thinklight.led_classdev); if (rc < 0) { tp_features.light = 0; tp_features.light_status = 0; } else { rc = 0; } return rc; } static void light_exit(void) { led_classdev_unregister(&tpacpi_led_thinklight.led_classdev); } static int light_read(struct seq_file *m) { int status; if (!tp_features.light) { seq_printf(m, "status:\t\tnot supported\n"); } else if (!tp_features.light_status) { seq_printf(m, "status:\t\tunknown\n"); seq_printf(m, "commands:\ton, off\n"); } else { status = light_get_status(); if (status < 0) return status; seq_printf(m, "status:\t\t%s\n", str_on_off(status & BIT(0))); seq_printf(m, "commands:\ton, off\n"); } return 0; } static int light_write(char *buf) { char *cmd; int newstatus = 0; if (!tp_features.light) return -ENODEV; while ((cmd = strsep(&buf, ","))) { if (strstarts(cmd, "on")) { newstatus = 1; } else if (strstarts(cmd, "off")) { newstatus = 0; } else return -EINVAL; } return light_set_status(newstatus); } static struct ibm_struct light_driver_data = { .name = "light", .read = light_read, .write = light_write, .exit = light_exit, }; /************************************************************************* * CMOS subdriver */ /* sysfs cmos_command -------------------------------------------------- */ static ssize_t cmos_command_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { unsigned long cmos_cmd; int res; if (parse_strtoul(buf, 21, &cmos_cmd)) return -EINVAL; res = issue_thinkpad_cmos_command(cmos_cmd); return (res) ? res : count; } static DEVICE_ATTR_WO(cmos_command); static struct attribute *cmos_attributes[] = { &dev_attr_cmos_command.attr, NULL }; static umode_t cmos_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { return cmos_handle ? attr->mode : 0; } static const struct attribute_group cmos_attr_group = { .is_visible = cmos_attr_is_visible, .attrs = cmos_attributes, }; /* --------------------------------------------------------------------- */ static int __init cmos_init(struct ibm_init_struct *iibm) { vdbg_printk(TPACPI_DBG_INIT, "initializing cmos commands subdriver\n"); TPACPI_ACPIHANDLE_INIT(cmos); vdbg_printk(TPACPI_DBG_INIT, "cmos commands are %s\n", str_supported(cmos_handle != NULL)); return cmos_handle ? 0 : -ENODEV; } static int cmos_read(struct seq_file *m) { /* cmos not supported on 570, 600e/x, 770e, 770x, A21e, A2xm/p, R30, R31, T20-22, X20-21 */ if (!cmos_handle) seq_printf(m, "status:\t\tnot supported\n"); else { seq_printf(m, "status:\t\tsupported\n"); seq_printf(m, "commands:\t<cmd> (<cmd> is 0-21)\n"); } return 0; } static int cmos_write(char *buf) { char *cmd; int cmos_cmd, res; while ((cmd = strsep(&buf, ","))) { if (sscanf(cmd, "%u", &cmos_cmd) == 1 && cmos_cmd >= 0 && cmos_cmd <= 21) { /* cmos_cmd set */ } else return -EINVAL; res = issue_thinkpad_cmos_command(cmos_cmd); if (res) return res; } return 0; } static struct ibm_struct cmos_driver_data = { .name = "cmos", .read = cmos_read, .write = cmos_write, }; /************************************************************************* * LED subdriver */ enum led_access_mode { TPACPI_LED_NONE = 0, TPACPI_LED_570, /* 570 */ TPACPI_LED_OLD, /* 600e/x, 770e, 770x, A21e, A2xm/p, T20-22, X20-21 */ TPACPI_LED_NEW, /* all others */ }; enum { /* For TPACPI_LED_OLD */ TPACPI_LED_EC_HLCL = 0x0c, /* EC reg to get led to power on */ TPACPI_LED_EC_HLBL = 0x0d, /* EC reg to blink a lit led */ TPACPI_LED_EC_HLMS = 0x0e, /* EC reg to select led to command */ }; static enum led_access_mode led_supported; static acpi_handle led_handle; #define TPACPI_LED_NUMLEDS 16 static struct tpacpi_led_classdev *tpacpi_leds; static enum led_status_t tpacpi_led_state_cache[TPACPI_LED_NUMLEDS]; static const char * const tpacpi_led_names[TPACPI_LED_NUMLEDS] = { /* there's a limit of 19 chars + NULL before 2.6.26 */ "tpacpi::power", "tpacpi:orange:batt", "tpacpi:green:batt", "tpacpi::dock_active", "tpacpi::bay_active", "tpacpi::dock_batt", "tpacpi::unknown_led", "tpacpi::standby", "tpacpi::dock_status1", "tpacpi::dock_status2", "tpacpi::lid_logo_dot", "tpacpi::unknown_led3", "tpacpi::thinkvantage", }; #define TPACPI_SAFE_LEDS 0x1481U static inline bool tpacpi_is_led_restricted(const unsigned int led) { #ifdef CONFIG_THINKPAD_ACPI_UNSAFE_LEDS return false; #else return (1U & (TPACPI_SAFE_LEDS >> led)) == 0; #endif } static int led_get_status(const unsigned int led) { int status; enum led_status_t led_s; switch (led_supported) { case TPACPI_LED_570: if (!acpi_evalf(ec_handle, &status, "GLED", "dd", 1 << led)) return -EIO; led_s = (status == 0) ? TPACPI_LED_OFF : ((status == 1) ? TPACPI_LED_ON : TPACPI_LED_BLINK); tpacpi_led_state_cache[led] = led_s; return led_s; default: return -ENXIO; } /* not reached */ } static int led_set_status(const unsigned int led, const enum led_status_t ledstatus) { /* off, on, blink. Index is led_status_t */ static const unsigned int led_sled_arg1[] = { 0, 1, 3 }; static const unsigned int led_led_arg1[] = { 0, 0x80, 0xc0 }; int rc = 0; switch (led_supported) { case TPACPI_LED_570: /* 570 */ if (unlikely(led > 7)) return -EINVAL; if (unlikely(tpacpi_is_led_restricted(led))) return -EPERM; if (!acpi_evalf(led_handle, NULL, NULL, "vdd", (1 << led), led_sled_arg1[ledstatus])) return -EIO; break; case TPACPI_LED_OLD: /* 600e/x, 770e, 770x, A21e, A2xm/p, T20-22, X20 */ if (unlikely(led > 7)) return -EINVAL; if (unlikely(tpacpi_is_led_restricted(led))) return -EPERM; rc = ec_write(TPACPI_LED_EC_HLMS, (1 << led)); if (rc >= 0) rc = ec_write(TPACPI_LED_EC_HLBL, (ledstatus == TPACPI_LED_BLINK) << led); if (rc >= 0) rc = ec_write(TPACPI_LED_EC_HLCL, (ledstatus != TPACPI_LED_OFF) << led); break; case TPACPI_LED_NEW: /* all others */ if (unlikely(led >= TPACPI_LED_NUMLEDS)) return -EINVAL; if (unlikely(tpacpi_is_led_restricted(led))) return -EPERM; if (!acpi_evalf(led_handle, NULL, NULL, "vdd", led, led_led_arg1[ledstatus])) return -EIO; break; default: return -ENXIO; } if (!rc) tpacpi_led_state_cache[led] = ledstatus; return rc; } static int led_sysfs_set(struct led_classdev *led_cdev, enum led_brightness brightness) { struct tpacpi_led_classdev *data = container_of(led_cdev, struct tpacpi_led_classdev, led_classdev); enum led_status_t new_state; if (brightness == LED_OFF) new_state = TPACPI_LED_OFF; else if (tpacpi_led_state_cache[data->led] != TPACPI_LED_BLINK) new_state = TPACPI_LED_ON; else new_state = TPACPI_LED_BLINK; return led_set_status(data->led, new_state); } static int led_sysfs_blink_set(struct led_classdev *led_cdev, unsigned long *delay_on, unsigned long *delay_off) { struct tpacpi_led_classdev *data = container_of(led_cdev, struct tpacpi_led_classdev, led_classdev); /* Can we choose the flash rate? */ if (*delay_on == 0 && *delay_off == 0) { /* yes. set them to the hardware blink rate (1 Hz) */ *delay_on = 500; /* ms */ *delay_off = 500; /* ms */ } else if ((*delay_on != 500) || (*delay_off != 500)) return -EINVAL; return led_set_status(data->led, TPACPI_LED_BLINK); } static enum led_brightness led_sysfs_get(struct led_classdev *led_cdev) { int rc; struct tpacpi_led_classdev *data = container_of(led_cdev, struct tpacpi_led_classdev, led_classdev); rc = led_get_status(data->led); if (rc == TPACPI_LED_OFF || rc < 0) rc = LED_OFF; /* no error handling in led class :( */ else rc = LED_FULL; return rc; } static void led_exit(void) { unsigned int i; for (i = 0; i < TPACPI_LED_NUMLEDS; i++) led_classdev_unregister(&tpacpi_leds[i].led_classdev); kfree(tpacpi_leds); } static int __init tpacpi_init_led(unsigned int led) { /* LEDs with no name don't get registered */ if (!tpacpi_led_names[led]) return 0; tpacpi_leds[led].led_classdev.brightness_set_blocking = &led_sysfs_set; tpacpi_leds[led].led_classdev.blink_set = &led_sysfs_blink_set; if (led_supported == TPACPI_LED_570) tpacpi_leds[led].led_classdev.brightness_get = &led_sysfs_get; tpacpi_leds[led].led_classdev.name = tpacpi_led_names[led]; tpacpi_leds[led].led_classdev.flags = LED_RETAIN_AT_SHUTDOWN; tpacpi_leds[led].led = led; return led_classdev_register(&tpacpi_pdev->dev, &tpacpi_leds[led].led_classdev); } static const struct tpacpi_quirk led_useful_qtable[] __initconst = { TPACPI_Q_IBM('1', 'E', 0x009f), /* A30 */ TPACPI_Q_IBM('1', 'N', 0x009f), /* A31 */ TPACPI_Q_IBM('1', 'G', 0x009f), /* A31 */ TPACPI_Q_IBM('1', 'I', 0x0097), /* T30 */ TPACPI_Q_IBM('1', 'R', 0x0097), /* T40, T41, T42, R50, R51 */ TPACPI_Q_IBM('7', '0', 0x0097), /* T43, R52 */ TPACPI_Q_IBM('1', 'Y', 0x0097), /* T43 */ TPACPI_Q_IBM('1', 'W', 0x0097), /* R50e */ TPACPI_Q_IBM('1', 'V', 0x0097), /* R51 */ TPACPI_Q_IBM('7', '8', 0x0097), /* R51e */ TPACPI_Q_IBM('7', '6', 0x0097), /* R52 */ TPACPI_Q_IBM('1', 'K', 0x00bf), /* X30 */ TPACPI_Q_IBM('1', 'Q', 0x00bf), /* X31, X32 */ TPACPI_Q_IBM('1', 'U', 0x00bf), /* X40 */ TPACPI_Q_IBM('7', '4', 0x00bf), /* X41 */ TPACPI_Q_IBM('7', '5', 0x00bf), /* X41t */ TPACPI_Q_IBM('7', '9', 0x1f97), /* T60 (1) */ TPACPI_Q_IBM('7', '7', 0x1f97), /* Z60* (1) */ TPACPI_Q_IBM('7', 'F', 0x1f97), /* Z61* (1) */ TPACPI_Q_IBM('7', 'B', 0x1fb7), /* X60 (1) */ /* (1) - may have excess leds enabled on MSB */ /* Defaults (order matters, keep last, don't reorder!) */ { /* Lenovo */ .vendor = PCI_VENDOR_ID_LENOVO, .bios = TPACPI_MATCH_ANY, .ec = TPACPI_MATCH_ANY, .quirks = 0x1fffU, }, { /* IBM ThinkPads with no EC version string */ .vendor = PCI_VENDOR_ID_IBM, .bios = TPACPI_MATCH_ANY, .ec = TPACPI_MATCH_UNKNOWN, .quirks = 0x00ffU, }, { /* IBM ThinkPads with EC version string */ .vendor = PCI_VENDOR_ID_IBM, .bios = TPACPI_MATCH_ANY, .ec = TPACPI_MATCH_ANY, .quirks = 0x00bfU, }, }; static enum led_access_mode __init led_init_detect_mode(void) { acpi_status status; if (tpacpi_is_ibm()) { /* 570 */ status = acpi_get_handle(ec_handle, "SLED", &led_handle); if (ACPI_SUCCESS(status)) return TPACPI_LED_570; /* 600e/x, 770e, 770x, A21e, A2xm/p, T20-22, X20-21 */ status = acpi_get_handle(ec_handle, "SYSL", &led_handle); if (ACPI_SUCCESS(status)) return TPACPI_LED_OLD; } /* most others */ status = acpi_get_handle(ec_handle, "LED", &led_handle); if (ACPI_SUCCESS(status)) return TPACPI_LED_NEW; /* R30, R31, and unknown firmwares */ led_handle = NULL; return TPACPI_LED_NONE; } static int __init led_init(struct ibm_init_struct *iibm) { unsigned int i; int rc; unsigned long useful_leds; vdbg_printk(TPACPI_DBG_INIT, "initializing LED subdriver\n"); led_supported = led_init_detect_mode(); if (led_supported != TPACPI_LED_NONE) { useful_leds = tpacpi_check_quirks(led_useful_qtable, ARRAY_SIZE(led_useful_qtable)); if (!useful_leds) { led_handle = NULL; led_supported = TPACPI_LED_NONE; } } vdbg_printk(TPACPI_DBG_INIT, "LED commands are %s, mode %d\n", str_supported(led_supported), led_supported); if (led_supported == TPACPI_LED_NONE) return -ENODEV; tpacpi_leds = kcalloc(TPACPI_LED_NUMLEDS, sizeof(*tpacpi_leds), GFP_KERNEL); if (!tpacpi_leds) { pr_err("Out of memory for LED data\n"); return -ENOMEM; } for (i = 0; i < TPACPI_LED_NUMLEDS; i++) { tpacpi_leds[i].led = -1; if (!tpacpi_is_led_restricted(i) && test_bit(i, &useful_leds)) { rc = tpacpi_init_led(i); if (rc < 0) { led_exit(); return rc; } } } #ifdef CONFIG_THINKPAD_ACPI_UNSAFE_LEDS pr_notice("warning: userspace override of important firmware LEDs is enabled\n"); #endif return 0; } #define str_led_status(s) ((s) >= TPACPI_LED_BLINK ? "blinking" : str_on_off(s)) static int led_read(struct seq_file *m) { if (!led_supported) { seq_printf(m, "status:\t\tnot supported\n"); return 0; } seq_printf(m, "status:\t\tsupported\n"); if (led_supported == TPACPI_LED_570) { /* 570 */ int i, status; for (i = 0; i < 8; i++) { status = led_get_status(i); if (status < 0) return -EIO; seq_printf(m, "%d:\t\t%s\n", i, str_led_status(status)); } } seq_printf(m, "commands:\t<led> on, <led> off, <led> blink (<led> is 0-15)\n"); return 0; } static int led_write(char *buf) { char *cmd; int led, rc; enum led_status_t s; if (!led_supported) return -ENODEV; while ((cmd = strsep(&buf, ","))) { if (sscanf(cmd, "%d", &led) != 1) return -EINVAL; if (led < 0 || led > (TPACPI_LED_NUMLEDS - 1)) return -ENODEV; if (tpacpi_leds[led].led < 0) return -ENODEV; if (strstr(cmd, "off")) { s = TPACPI_LED_OFF; } else if (strstr(cmd, "on")) { s = TPACPI_LED_ON; } else if (strstr(cmd, "blink")) { s = TPACPI_LED_BLINK; } else { return -EINVAL; } rc = led_set_status(led, s); if (rc < 0) return rc; } return 0; } static struct ibm_struct led_driver_data = { .name = "led", .read = led_read, .write = led_write, .exit = led_exit, }; /************************************************************************* * Beep subdriver */ TPACPI_HANDLE(beep, ec, "BEEP"); /* all except R30, R31 */ #define TPACPI_BEEP_Q1 0x0001 static const struct tpacpi_quirk beep_quirk_table[] __initconst = { TPACPI_Q_IBM('I', 'M', TPACPI_BEEP_Q1), /* 570 */ TPACPI_Q_IBM('I', 'U', TPACPI_BEEP_Q1), /* 570E - unverified */ }; static int __init beep_init(struct ibm_init_struct *iibm) { unsigned long quirks; vdbg_printk(TPACPI_DBG_INIT, "initializing beep subdriver\n"); TPACPI_ACPIHANDLE_INIT(beep); vdbg_printk(TPACPI_DBG_INIT, "beep is %s\n", str_supported(beep_handle != NULL)); quirks = tpacpi_check_quirks(beep_quirk_table, ARRAY_SIZE(beep_quirk_table)); tp_features.beep_needs_two_args = !!(quirks & TPACPI_BEEP_Q1); return (beep_handle) ? 0 : -ENODEV; } static int beep_read(struct seq_file *m) { if (!beep_handle) seq_printf(m, "status:\t\tnot supported\n"); else { seq_printf(m, "status:\t\tsupported\n"); seq_printf(m, "commands:\t<cmd> (<cmd> is 0-17)\n"); } return 0; } static int beep_write(char *buf) { char *cmd; int beep_cmd; if (!beep_handle) return -ENODEV; while ((cmd = strsep(&buf, ","))) { if (sscanf(cmd, "%u", &beep_cmd) == 1 && beep_cmd >= 0 && beep_cmd <= 17) { /* beep_cmd set */ } else return -EINVAL; if (tp_features.beep_needs_two_args) { if (!acpi_evalf(beep_handle, NULL, NULL, "vdd", beep_cmd, 0)) return -EIO; } else { if (!acpi_evalf(beep_handle, NULL, NULL, "vd", beep_cmd)) return -EIO; } } return 0; } static struct ibm_struct beep_driver_data = { .name = "beep", .read = beep_read, .write = beep_write, }; /************************************************************************* * Thermal subdriver */ enum thermal_access_mode { TPACPI_THERMAL_NONE = 0, /* No thermal support */ TPACPI_THERMAL_ACPI_TMP07, /* Use ACPI TMP0-7 */ TPACPI_THERMAL_ACPI_UPDT, /* Use ACPI TMP0-7 with UPDT */ TPACPI_THERMAL_TPEC_8, /* Use ACPI EC regs, 8 sensors */ TPACPI_THERMAL_TPEC_16, /* Use ACPI EC regs, 16 sensors */ }; enum { /* TPACPI_THERMAL_TPEC_* */ TP_EC_THERMAL_TMP0 = 0x78, /* ACPI EC regs TMP 0..7 */ TP_EC_THERMAL_TMP8 = 0xC0, /* ACPI EC regs TMP 8..15 */ TP_EC_FUNCREV = 0xEF, /* ACPI EC Functional revision */ TP_EC_THERMAL_TMP_NA = -128, /* ACPI EC sensor not available */ TPACPI_THERMAL_SENSOR_NA = -128000, /* Sensor not available */ }; #define TPACPI_MAX_THERMAL_SENSORS 16 /* Max thermal sensors supported */ struct ibm_thermal_sensors_struct { s32 temp[TPACPI_MAX_THERMAL_SENSORS]; }; static enum thermal_access_mode thermal_read_mode; static bool thermal_use_labels; /* idx is zero-based */ static int thermal_get_sensor(int idx, s32 *value) { int t; s8 tmp; char tmpi[5]; t = TP_EC_THERMAL_TMP0; switch (thermal_read_mode) { #if TPACPI_MAX_THERMAL_SENSORS >= 16 case TPACPI_THERMAL_TPEC_16: if (idx >= 8 && idx <= 15) { t = TP_EC_THERMAL_TMP8; idx -= 8; } #endif fallthrough; case TPACPI_THERMAL_TPEC_8: if (idx <= 7) { if (!acpi_ec_read(t + idx, &tmp)) return -EIO; *value = tmp * 1000; return 0; } break; case TPACPI_THERMAL_ACPI_UPDT: if (idx <= 7) { snprintf(tmpi, sizeof(tmpi), "TMP%c", '0' + idx); if (!acpi_evalf(ec_handle, NULL, "UPDT", "v")) return -EIO; if (!acpi_evalf(ec_handle, &t, tmpi, "d")) return -EIO; *value = (t - 2732) * 100; return 0; } break; case TPACPI_THERMAL_ACPI_TMP07: if (idx <= 7) { snprintf(tmpi, sizeof(tmpi), "TMP%c", '0' + idx); if (!acpi_evalf(ec_handle, &t, tmpi, "d")) return -EIO; if (t > 127 || t < -127) t = TP_EC_THERMAL_TMP_NA; *value = t * 1000; return 0; } break; case TPACPI_THERMAL_NONE: default: return -ENOSYS; } return -EINVAL; } static int thermal_get_sensors(struct ibm_thermal_sensors_struct *s) { int res, i; int n; n = 8; i = 0; if (!s) return -EINVAL; if (thermal_read_mode == TPACPI_THERMAL_TPEC_16) n = 16; for (i = 0 ; i < n; i++) { res = thermal_get_sensor(i, &s->temp[i]); if (res) return res; } return n; } static void thermal_dump_all_sensors(void) { int n, i; struct ibm_thermal_sensors_struct t; n = thermal_get_sensors(&t); if (n <= 0) return; pr_notice("temperatures (Celsius):"); for (i = 0; i < n; i++) { if (t.temp[i] != TPACPI_THERMAL_SENSOR_NA) pr_cont(" %d", (int)(t.temp[i] / 1000)); else pr_cont(" N/A"); } pr_cont("\n"); } /* sysfs temp##_input -------------------------------------------------- */ static ssize_t thermal_temp_input_show(struct device *dev, struct device_attribute *attr, char *buf) { struct sensor_device_attribute *sensor_attr = to_sensor_dev_attr(attr); int idx = sensor_attr->index; s32 value; int res; res = thermal_get_sensor(idx, &value); if (res) return res; if (value == TPACPI_THERMAL_SENSOR_NA) return -ENXIO; return sysfs_emit(buf, "%d\n", value); } #define THERMAL_SENSOR_ATTR_TEMP(_idxA, _idxB) \ SENSOR_ATTR(temp##_idxA##_input, S_IRUGO, \ thermal_temp_input_show, NULL, _idxB) static struct sensor_device_attribute sensor_dev_attr_thermal_temp_input[] = { THERMAL_SENSOR_ATTR_TEMP(1, 0), THERMAL_SENSOR_ATTR_TEMP(2, 1), THERMAL_SENSOR_ATTR_TEMP(3, 2), THERMAL_SENSOR_ATTR_TEMP(4, 3), THERMAL_SENSOR_ATTR_TEMP(5, 4), THERMAL_SENSOR_ATTR_TEMP(6, 5), THERMAL_SENSOR_ATTR_TEMP(7, 6), THERMAL_SENSOR_ATTR_TEMP(8, 7), THERMAL_SENSOR_ATTR_TEMP(9, 8), THERMAL_SENSOR_ATTR_TEMP(10, 9), THERMAL_SENSOR_ATTR_TEMP(11, 10), THERMAL_SENSOR_ATTR_TEMP(12, 11), THERMAL_SENSOR_ATTR_TEMP(13, 12), THERMAL_SENSOR_ATTR_TEMP(14, 13), THERMAL_SENSOR_ATTR_TEMP(15, 14), THERMAL_SENSOR_ATTR_TEMP(16, 15), }; #define THERMAL_ATTRS(X) \ &sensor_dev_attr_thermal_temp_input[X].dev_attr.attr static struct attribute *thermal_temp_input_attr[] = { THERMAL_ATTRS(0), THERMAL_ATTRS(1), THERMAL_ATTRS(2), THERMAL_ATTRS(3), THERMAL_ATTRS(4), THERMAL_ATTRS(5), THERMAL_ATTRS(6), THERMAL_ATTRS(7), THERMAL_ATTRS(8), THERMAL_ATTRS(9), THERMAL_ATTRS(10), THERMAL_ATTRS(11), THERMAL_ATTRS(12), THERMAL_ATTRS(13), THERMAL_ATTRS(14), THERMAL_ATTRS(15), NULL }; static umode_t thermal_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { if (thermal_read_mode == TPACPI_THERMAL_NONE) return 0; if (attr == THERMAL_ATTRS(8) || attr == THERMAL_ATTRS(9) || attr == THERMAL_ATTRS(10) || attr == THERMAL_ATTRS(11) || attr == THERMAL_ATTRS(12) || attr == THERMAL_ATTRS(13) || attr == THERMAL_ATTRS(14) || attr == THERMAL_ATTRS(15)) { if (thermal_read_mode != TPACPI_THERMAL_TPEC_16) return 0; } return attr->mode; } static const struct attribute_group thermal_attr_group = { .is_visible = thermal_attr_is_visible, .attrs = thermal_temp_input_attr, }; #undef THERMAL_SENSOR_ATTR_TEMP #undef THERMAL_ATTRS static ssize_t temp1_label_show(struct device *dev, struct device_attribute *attr, char *buf) { return sysfs_emit(buf, "CPU\n"); } static DEVICE_ATTR_RO(temp1_label); static ssize_t temp2_label_show(struct device *dev, struct device_attribute *attr, char *buf) { return sysfs_emit(buf, "GPU\n"); } static DEVICE_ATTR_RO(temp2_label); static struct attribute *temp_label_attributes[] = { &dev_attr_temp1_label.attr, &dev_attr_temp2_label.attr, NULL }; static umode_t temp_label_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { return thermal_use_labels ? attr->mode : 0; } static const struct attribute_group temp_label_attr_group = { .is_visible = temp_label_attr_is_visible, .attrs = temp_label_attributes, }; /* --------------------------------------------------------------------- */ static int __init thermal_init(struct ibm_init_struct *iibm) { u8 t, ta1, ta2, ver = 0; int i; int acpi_tmp7; vdbg_printk(TPACPI_DBG_INIT, "initializing thermal subdriver\n"); acpi_tmp7 = acpi_evalf(ec_handle, NULL, "TMP7", "qv"); if (thinkpad_id.ec_model) { /* * Direct EC access mode: sensors at registers * 0x78-0x7F, 0xC0-0xC7. Registers return 0x00 for * non-implemented, thermal sensors return 0x80 when * not available * The above rule is unfortunately flawed. This has been seen with * 0xC2 (power supply ID) causing thermal control problems. * The EC version can be determined by offset 0xEF and at least for * version 3 the Lenovo firmware team confirmed that registers 0xC0-0xC7 * are not thermal registers. */ if (!acpi_ec_read(TP_EC_FUNCREV, &ver)) pr_warn("Thinkpad ACPI EC unable to access EC version\n"); ta1 = ta2 = 0; for (i = 0; i < 8; i++) { if (acpi_ec_read(TP_EC_THERMAL_TMP0 + i, &t)) { ta1 |= t; } else { ta1 = 0; break; } if (ver < 3) { if (acpi_ec_read(TP_EC_THERMAL_TMP8 + i, &t)) { ta2 |= t; } else { ta1 = 0; break; } } } if (ta1 == 0) { /* This is sheer paranoia, but we handle it anyway */ if (acpi_tmp7) { pr_err("ThinkPad ACPI EC access misbehaving, falling back to ACPI TMPx access mode\n"); thermal_read_mode = TPACPI_THERMAL_ACPI_TMP07; } else { pr_err("ThinkPad ACPI EC access misbehaving, disabling thermal sensors access\n"); thermal_read_mode = TPACPI_THERMAL_NONE; } } else { if (ver >= 3) { thermal_read_mode = TPACPI_THERMAL_TPEC_8; thermal_use_labels = true; } else { thermal_read_mode = (ta2 != 0) ? TPACPI_THERMAL_TPEC_16 : TPACPI_THERMAL_TPEC_8; } } } else if (acpi_tmp7) { if (tpacpi_is_ibm() && acpi_evalf(ec_handle, NULL, "UPDT", "qv")) { /* 600e/x, 770e, 770x */ thermal_read_mode = TPACPI_THERMAL_ACPI_UPDT; } else { /* IBM/LENOVO DSDT EC.TMPx access, max 8 sensors */ thermal_read_mode = TPACPI_THERMAL_ACPI_TMP07; } } else { /* temperatures not supported on 570, G4x, R30, R31, R32 */ thermal_read_mode = TPACPI_THERMAL_NONE; } vdbg_printk(TPACPI_DBG_INIT, "thermal is %s, mode %d\n", str_supported(thermal_read_mode != TPACPI_THERMAL_NONE), thermal_read_mode); return thermal_read_mode != TPACPI_THERMAL_NONE ? 0 : -ENODEV; } static int thermal_read(struct seq_file *m) { int n, i; struct ibm_thermal_sensors_struct t; n = thermal_get_sensors(&t); if (unlikely(n < 0)) return n; seq_printf(m, "temperatures:\t"); if (n > 0) { for (i = 0; i < (n - 1); i++) seq_printf(m, "%d ", t.temp[i] / 1000); seq_printf(m, "%d\n", t.temp[i] / 1000); } else seq_printf(m, "not supported\n"); return 0; } static struct ibm_struct thermal_driver_data = { .name = "thermal", .read = thermal_read, }; /************************************************************************* * Backlight/brightness subdriver */ #define TPACPI_BACKLIGHT_DEV_NAME "thinkpad_screen" /* * ThinkPads can read brightness from two places: EC HBRV (0x31), or * CMOS NVRAM byte 0x5E, bits 0-3. * * EC HBRV (0x31) has the following layout * Bit 7: unknown function * Bit 6: unknown function * Bit 5: Z: honour scale changes, NZ: ignore scale changes * Bit 4: must be set to zero to avoid problems * Bit 3-0: backlight brightness level * * brightness_get_raw returns status data in the HBRV layout * * WARNING: The X61 has been verified to use HBRV for something else, so * this should be used _only_ on IBM ThinkPads, and maybe with some careful * testing on the very early *60 Lenovo models... */ enum { TP_EC_BACKLIGHT = 0x31, /* TP_EC_BACKLIGHT bitmasks */ TP_EC_BACKLIGHT_LVLMSK = 0x1F, TP_EC_BACKLIGHT_CMDMSK = 0xE0, TP_EC_BACKLIGHT_MAPSW = 0x20, }; enum tpacpi_brightness_access_mode { TPACPI_BRGHT_MODE_AUTO = 0, /* Not implemented yet */ TPACPI_BRGHT_MODE_EC, /* EC control */ TPACPI_BRGHT_MODE_UCMS_STEP, /* UCMS step-based control */ TPACPI_BRGHT_MODE_ECNVRAM, /* EC control w/ NVRAM store */ TPACPI_BRGHT_MODE_MAX }; static struct backlight_device *ibm_backlight_device; static enum tpacpi_brightness_access_mode brightness_mode = TPACPI_BRGHT_MODE_MAX; static unsigned int brightness_enable = 2; /* 2 = auto, 0 = no, 1 = yes */ static struct mutex brightness_mutex; /* NVRAM brightness access, * call with brightness_mutex held! */ static unsigned int tpacpi_brightness_nvram_get(void) { u8 lnvram; lnvram = (nvram_read_byte(TP_NVRAM_ADDR_BRIGHTNESS) & TP_NVRAM_MASK_LEVEL_BRIGHTNESS) >> TP_NVRAM_POS_LEVEL_BRIGHTNESS; lnvram &= bright_maxlvl; return lnvram; } static void tpacpi_brightness_checkpoint_nvram(void) { u8 lec = 0; u8 b_nvram; if (brightness_mode != TPACPI_BRGHT_MODE_ECNVRAM) return; vdbg_printk(TPACPI_DBG_BRGHT, "trying to checkpoint backlight level to NVRAM...\n"); if (mutex_lock_killable(&brightness_mutex) < 0) return; if (unlikely(!acpi_ec_read(TP_EC_BACKLIGHT, &lec))) goto unlock; lec &= TP_EC_BACKLIGHT_LVLMSK; b_nvram = nvram_read_byte(TP_NVRAM_ADDR_BRIGHTNESS); if (lec != ((b_nvram & TP_NVRAM_MASK_LEVEL_BRIGHTNESS) >> TP_NVRAM_POS_LEVEL_BRIGHTNESS)) { /* NVRAM needs update */ b_nvram &= ~(TP_NVRAM_MASK_LEVEL_BRIGHTNESS << TP_NVRAM_POS_LEVEL_BRIGHTNESS); b_nvram |= lec; nvram_write_byte(b_nvram, TP_NVRAM_ADDR_BRIGHTNESS); dbg_printk(TPACPI_DBG_BRGHT, "updated NVRAM backlight level to %u (0x%02x)\n", (unsigned int) lec, (unsigned int) b_nvram); } else vdbg_printk(TPACPI_DBG_BRGHT, "NVRAM backlight level already is %u (0x%02x)\n", (unsigned int) lec, (unsigned int) b_nvram); unlock: mutex_unlock(&brightness_mutex); } /* call with brightness_mutex held! */ static int tpacpi_brightness_get_raw(int *status) { u8 lec = 0; switch (brightness_mode) { case TPACPI_BRGHT_MODE_UCMS_STEP: *status = tpacpi_brightness_nvram_get(); return 0; case TPACPI_BRGHT_MODE_EC: case TPACPI_BRGHT_MODE_ECNVRAM: if (unlikely(!acpi_ec_read(TP_EC_BACKLIGHT, &lec))) return -EIO; *status = lec; return 0; default: return -ENXIO; } } /* call with brightness_mutex held! */ /* do NOT call with illegal backlight level value */ static int tpacpi_brightness_set_ec(unsigned int value) { u8 lec = 0; if (unlikely(!acpi_ec_read(TP_EC_BACKLIGHT, &lec))) return -EIO; if (unlikely(!acpi_ec_write(TP_EC_BACKLIGHT, (lec & TP_EC_BACKLIGHT_CMDMSK) | (value & TP_EC_BACKLIGHT_LVLMSK)))) return -EIO; return 0; } /* call with brightness_mutex held! */ static int tpacpi_brightness_set_ucmsstep(unsigned int value) { int cmos_cmd, inc; unsigned int current_value, i; current_value = tpacpi_brightness_nvram_get(); if (value == current_value) return 0; cmos_cmd = (value > current_value) ? TP_CMOS_BRIGHTNESS_UP : TP_CMOS_BRIGHTNESS_DOWN; inc = (value > current_value) ? 1 : -1; for (i = current_value; i != value; i += inc) if (issue_thinkpad_cmos_command(cmos_cmd)) return -EIO; return 0; } /* May return EINTR which can always be mapped to ERESTARTSYS */ static int brightness_set(unsigned int value) { int res; if (value > bright_maxlvl) return -EINVAL; vdbg_printk(TPACPI_DBG_BRGHT, "set backlight level to %d\n", value); res = mutex_lock_killable(&brightness_mutex); if (res < 0) return res; switch (brightness_mode) { case TPACPI_BRGHT_MODE_EC: case TPACPI_BRGHT_MODE_ECNVRAM: res = tpacpi_brightness_set_ec(value); break; case TPACPI_BRGHT_MODE_UCMS_STEP: res = tpacpi_brightness_set_ucmsstep(value); break; default: res = -ENXIO; } mutex_unlock(&brightness_mutex); return res; } /* sysfs backlight class ----------------------------------------------- */ static int brightness_update_status(struct backlight_device *bd) { int level = backlight_get_brightness(bd); dbg_printk(TPACPI_DBG_BRGHT, "backlight: attempt to set level to %d\n", level); /* it is the backlight class's job (caller) to handle * EINTR and other errors properly */ return brightness_set(level); } static int brightness_get(struct backlight_device *bd) { int status, res; res = mutex_lock_killable(&brightness_mutex); if (res < 0) return 0; res = tpacpi_brightness_get_raw(&status); mutex_unlock(&brightness_mutex); if (res < 0) return 0; return status & TP_EC_BACKLIGHT_LVLMSK; } static void tpacpi_brightness_notify_change(void) { backlight_force_update(ibm_backlight_device, BACKLIGHT_UPDATE_HOTKEY); } static const struct backlight_ops ibm_backlight_data = { .get_brightness = brightness_get, .update_status = brightness_update_status, }; /* --------------------------------------------------------------------- */ static int __init tpacpi_evaluate_bcl(struct acpi_device *adev, void *not_used) { struct acpi_buffer buffer = { ACPI_ALLOCATE_BUFFER, NULL }; union acpi_object *obj; acpi_status status; int rc; status = acpi_evaluate_object(adev->handle, "_BCL", NULL, &buffer); if (ACPI_FAILURE(status)) return 0; obj = buffer.pointer; if (!obj || obj->type != ACPI_TYPE_PACKAGE) { acpi_handle_info(adev->handle, "Unknown _BCL data, please report this to %s\n", TPACPI_MAIL); rc = 0; } else { rc = obj->package.count; } kfree(obj); return rc; } /* * Call _BCL method of video device. On some ThinkPads this will * switch the firmware to the ACPI brightness control mode. */ static int __init tpacpi_query_bcl_levels(acpi_handle handle) { struct acpi_device *device; device = acpi_fetch_acpi_dev(handle); if (!device) return 0; return acpi_dev_for_each_child(device, tpacpi_evaluate_bcl, NULL); } /* * Returns 0 (no ACPI _BCL or _BCL invalid), or size of brightness map */ static unsigned int __init tpacpi_check_std_acpi_brightness_support(void) { acpi_handle video_device; int bcl_levels = 0; tpacpi_acpi_handle_locate("video", NULL, &video_device); if (video_device) bcl_levels = tpacpi_query_bcl_levels(video_device); tp_features.bright_acpimode = (bcl_levels > 0); return (bcl_levels > 2) ? (bcl_levels - 2) : 0; } /* * These are only useful for models that have only one possibility * of GPU. If the BIOS model handles both ATI and Intel, don't use * these quirks. */ #define TPACPI_BRGHT_Q_NOEC 0x0001 /* Must NOT use EC HBRV */ #define TPACPI_BRGHT_Q_EC 0x0002 /* Should or must use EC HBRV */ #define TPACPI_BRGHT_Q_ASK 0x8000 /* Ask for user report */ static const struct tpacpi_quirk brightness_quirk_table[] __initconst = { /* Models with ATI GPUs known to require ECNVRAM mode */ TPACPI_Q_IBM('1', 'Y', TPACPI_BRGHT_Q_EC), /* T43/p ATI */ /* Models with ATI GPUs that can use ECNVRAM */ TPACPI_Q_IBM('1', 'R', TPACPI_BRGHT_Q_EC), /* R50,51 T40-42 */ TPACPI_Q_IBM('1', 'Q', TPACPI_BRGHT_Q_ASK|TPACPI_BRGHT_Q_EC), TPACPI_Q_IBM('7', '6', TPACPI_BRGHT_Q_EC), /* R52 */ TPACPI_Q_IBM('7', '8', TPACPI_BRGHT_Q_ASK|TPACPI_BRGHT_Q_EC), /* Models with Intel Extreme Graphics 2 */ TPACPI_Q_IBM('1', 'U', TPACPI_BRGHT_Q_NOEC), /* X40 */ TPACPI_Q_IBM('1', 'V', TPACPI_BRGHT_Q_ASK|TPACPI_BRGHT_Q_EC), TPACPI_Q_IBM('1', 'W', TPACPI_BRGHT_Q_ASK|TPACPI_BRGHT_Q_EC), /* Models with Intel GMA900 */ TPACPI_Q_IBM('7', '0', TPACPI_BRGHT_Q_NOEC), /* T43, R52 */ TPACPI_Q_IBM('7', '4', TPACPI_BRGHT_Q_NOEC), /* X41 */ TPACPI_Q_IBM('7', '5', TPACPI_BRGHT_Q_NOEC), /* X41 Tablet */ }; /* * Returns < 0 for error, otherwise sets tp_features.bright_* * and bright_maxlvl. */ static void __init tpacpi_detect_brightness_capabilities(void) { unsigned int b; vdbg_printk(TPACPI_DBG_INIT, "detecting firmware brightness interface capabilities\n"); /* we could run a quirks check here (same table used by * brightness_init) if needed */ /* * We always attempt to detect acpi support, so as to switch * Lenovo Vista BIOS to ACPI brightness mode even if we are not * going to publish a backlight interface */ b = tpacpi_check_std_acpi_brightness_support(); switch (b) { case 16: bright_maxlvl = 15; break; case 8: case 0: bright_maxlvl = 7; break; default: tp_features.bright_unkfw = 1; bright_maxlvl = b - 1; } pr_debug("detected %u brightness levels\n", bright_maxlvl + 1); } static int __init brightness_init(struct ibm_init_struct *iibm) { struct backlight_properties props; int b; unsigned long quirks; vdbg_printk(TPACPI_DBG_INIT, "initializing brightness subdriver\n"); mutex_init(&brightness_mutex); quirks = tpacpi_check_quirks(brightness_quirk_table, ARRAY_SIZE(brightness_quirk_table)); /* tpacpi_detect_brightness_capabilities() must have run already */ /* if it is unknown, we don't handle it: it wouldn't be safe */ if (tp_features.bright_unkfw) return -ENODEV; if (!brightness_enable) { dbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_BRGHT, "brightness support disabled by module parameter\n"); return -ENODEV; } if (acpi_video_get_backlight_type() != acpi_backlight_vendor) { if (brightness_enable > 1) { pr_info("Standard ACPI backlight interface available, not loading native one\n"); return -ENODEV; } else if (brightness_enable == 1) { pr_warn("Cannot enable backlight brightness support, ACPI is already handling it. Refer to the acpi_backlight kernel parameter.\n"); return -ENODEV; } } else if (!tp_features.bright_acpimode) { pr_notice("ACPI backlight interface not available\n"); return -ENODEV; } pr_notice("ACPI native brightness control enabled\n"); /* * Check for module parameter bogosity, note that we * init brightness_mode to TPACPI_BRGHT_MODE_MAX in order to be * able to detect "unspecified" */ if (brightness_mode > TPACPI_BRGHT_MODE_MAX) return -EINVAL; /* TPACPI_BRGHT_MODE_AUTO not implemented yet, just use default */ if (brightness_mode == TPACPI_BRGHT_MODE_AUTO || brightness_mode == TPACPI_BRGHT_MODE_MAX) { if (quirks & TPACPI_BRGHT_Q_EC) brightness_mode = TPACPI_BRGHT_MODE_ECNVRAM; else brightness_mode = TPACPI_BRGHT_MODE_UCMS_STEP; dbg_printk(TPACPI_DBG_BRGHT, "driver auto-selected brightness_mode=%d\n", brightness_mode); } /* Safety */ if (!tpacpi_is_ibm() && (brightness_mode == TPACPI_BRGHT_MODE_ECNVRAM || brightness_mode == TPACPI_BRGHT_MODE_EC)) return -EINVAL; if (tpacpi_brightness_get_raw(&b) < 0) return -ENODEV; memset(&props, 0, sizeof(struct backlight_properties)); props.type = BACKLIGHT_PLATFORM; props.max_brightness = bright_maxlvl; props.brightness = b & TP_EC_BACKLIGHT_LVLMSK; ibm_backlight_device = backlight_device_register(TPACPI_BACKLIGHT_DEV_NAME, NULL, NULL, &ibm_backlight_data, &props); if (IS_ERR(ibm_backlight_device)) { int rc = PTR_ERR(ibm_backlight_device); ibm_backlight_device = NULL; pr_err("Could not register backlight device\n"); return rc; } vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_BRGHT, "brightness is supported\n"); if (quirks & TPACPI_BRGHT_Q_ASK) { pr_notice("brightness: will use unverified default: brightness_mode=%d\n", brightness_mode); pr_notice("brightness: please report to %s whether it works well or not on your ThinkPad\n", TPACPI_MAIL); } /* Added by mistake in early 2007. Probably useless, but it could * be working around some unknown firmware problem where the value * read at startup doesn't match the real hardware state... so leave * it in place just in case */ backlight_update_status(ibm_backlight_device); vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_BRGHT, "brightness: registering brightness hotkeys as change notification\n"); tpacpi_hotkey_driver_mask_set(hotkey_driver_mask | TP_ACPI_HKEY_BRGHTUP_MASK | TP_ACPI_HKEY_BRGHTDWN_MASK); return 0; } static void brightness_suspend(void) { tpacpi_brightness_checkpoint_nvram(); } static void brightness_shutdown(void) { tpacpi_brightness_checkpoint_nvram(); } static void brightness_exit(void) { if (ibm_backlight_device) { vdbg_printk(TPACPI_DBG_EXIT | TPACPI_DBG_BRGHT, "calling backlight_device_unregister()\n"); backlight_device_unregister(ibm_backlight_device); } tpacpi_brightness_checkpoint_nvram(); } static int brightness_read(struct seq_file *m) { int level; level = brightness_get(NULL); if (level < 0) { seq_printf(m, "level:\t\tunreadable\n"); } else { seq_printf(m, "level:\t\t%d\n", level); seq_printf(m, "commands:\tup, down\n"); seq_printf(m, "commands:\tlevel <level> (<level> is 0-%d)\n", bright_maxlvl); } return 0; } static int brightness_write(char *buf) { int level; int rc; char *cmd; level = brightness_get(NULL); if (level < 0) return level; while ((cmd = strsep(&buf, ","))) { if (strstarts(cmd, "up")) { if (level < bright_maxlvl) level++; } else if (strstarts(cmd, "down")) { if (level > 0) level--; } else if (sscanf(cmd, "level %d", &level) == 1 && level >= 0 && level <= bright_maxlvl) { /* new level set */ } else return -EINVAL; } tpacpi_disclose_usertask("procfs brightness", "set level to %d\n", level); /* * Now we know what the final level should be, so we try to set it. * Doing it this way makes the syscall restartable in case of EINTR */ rc = brightness_set(level); if (!rc && ibm_backlight_device) backlight_force_update(ibm_backlight_device, BACKLIGHT_UPDATE_SYSFS); return (rc == -EINTR) ? -ERESTARTSYS : rc; } static struct ibm_struct brightness_driver_data = { .name = "brightness", .read = brightness_read, .write = brightness_write, .exit = brightness_exit, .suspend = brightness_suspend, .shutdown = brightness_shutdown, }; /************************************************************************* * Volume subdriver */ /* * IBM ThinkPads have a simple volume controller with MUTE gating. * Very early Lenovo ThinkPads follow the IBM ThinkPad spec. * * Since the *61 series (and probably also the later *60 series), Lenovo * ThinkPads only implement the MUTE gate. * * EC register 0x30 * Bit 6: MUTE (1 mutes sound) * Bit 3-0: Volume * Other bits should be zero as far as we know. * * This is also stored in CMOS NVRAM, byte 0x60, bit 6 (MUTE), and * bits 3-0 (volume). Other bits in NVRAM may have other functions, * such as bit 7 which is used to detect repeated presses of MUTE, * and we leave them unchanged. * * On newer Lenovo ThinkPads, the EC can automatically change the volume * in response to user input. Unfortunately, this rarely works well. * The laptop changes the state of its internal MUTE gate and, on some * models, sends KEY_MUTE, causing any user code that responds to the * mute button to get confused. The hardware MUTE gate is also * unnecessary, since user code can handle the mute button without * kernel or EC help. * * To avoid confusing userspace, we simply disable all EC-based mute * and volume controls when possible. */ #ifdef CONFIG_THINKPAD_ACPI_ALSA_SUPPORT #define TPACPI_ALSA_DRVNAME "ThinkPad EC" #define TPACPI_ALSA_SHRTNAME "ThinkPad Console Audio Control" #define TPACPI_ALSA_MIXERNAME TPACPI_ALSA_SHRTNAME #if SNDRV_CARDS <= 32 #define DEFAULT_ALSA_IDX ~((1 << (SNDRV_CARDS - 3)) - 1) #else #define DEFAULT_ALSA_IDX ~((1 << (32 - 3)) - 1) #endif static int alsa_index = DEFAULT_ALSA_IDX; /* last three slots */ static char *alsa_id = "ThinkPadEC"; static bool alsa_enable = SNDRV_DEFAULT_ENABLE1; struct tpacpi_alsa_data { struct snd_card *card; struct snd_ctl_elem_id *ctl_mute_id; struct snd_ctl_elem_id *ctl_vol_id; }; static struct snd_card *alsa_card; enum { TP_EC_AUDIO = 0x30, /* TP_EC_AUDIO bits */ TP_EC_AUDIO_MUTESW = 6, /* TP_EC_AUDIO bitmasks */ TP_EC_AUDIO_LVL_MSK = 0x0F, TP_EC_AUDIO_MUTESW_MSK = (1 << TP_EC_AUDIO_MUTESW), /* Maximum volume */ TP_EC_VOLUME_MAX = 14, }; enum tpacpi_volume_access_mode { TPACPI_VOL_MODE_AUTO = 0, /* Not implemented yet */ TPACPI_VOL_MODE_EC, /* Pure EC control */ TPACPI_VOL_MODE_UCMS_STEP, /* UCMS step-based control: N/A */ TPACPI_VOL_MODE_ECNVRAM, /* EC control w/ NVRAM store */ TPACPI_VOL_MODE_MAX }; enum tpacpi_volume_capabilities { TPACPI_VOL_CAP_AUTO = 0, /* Use white/blacklist */ TPACPI_VOL_CAP_VOLMUTE, /* Output vol and mute */ TPACPI_VOL_CAP_MUTEONLY, /* Output mute only */ TPACPI_VOL_CAP_MAX }; enum tpacpi_mute_btn_mode { TP_EC_MUTE_BTN_LATCH = 0, /* Mute mutes; up/down unmutes */ /* We don't know what mode 1 is. */ TP_EC_MUTE_BTN_NONE = 2, /* Mute and up/down are just keys */ TP_EC_MUTE_BTN_TOGGLE = 3, /* Mute toggles; up/down unmutes */ }; static enum tpacpi_volume_access_mode volume_mode = TPACPI_VOL_MODE_MAX; static enum tpacpi_volume_capabilities volume_capabilities; static bool volume_control_allowed; static bool software_mute_requested = true; static bool software_mute_active; static int software_mute_orig_mode; /* * Used to syncronize writers to TP_EC_AUDIO and * TP_NVRAM_ADDR_MIXER, as we need to do read-modify-write */ static struct mutex volume_mutex; static void tpacpi_volume_checkpoint_nvram(void) { u8 lec = 0; u8 b_nvram; u8 ec_mask; if (volume_mode != TPACPI_VOL_MODE_ECNVRAM) return; if (!volume_control_allowed) return; if (software_mute_active) return; vdbg_printk(TPACPI_DBG_MIXER, "trying to checkpoint mixer state to NVRAM...\n"); if (tp_features.mixer_no_level_control) ec_mask = TP_EC_AUDIO_MUTESW_MSK; else ec_mask = TP_EC_AUDIO_MUTESW_MSK | TP_EC_AUDIO_LVL_MSK; if (mutex_lock_killable(&volume_mutex) < 0) return; if (unlikely(!acpi_ec_read(TP_EC_AUDIO, &lec))) goto unlock; lec &= ec_mask; b_nvram = nvram_read_byte(TP_NVRAM_ADDR_MIXER); if (lec != (b_nvram & ec_mask)) { /* NVRAM needs update */ b_nvram &= ~ec_mask; b_nvram |= lec; nvram_write_byte(b_nvram, TP_NVRAM_ADDR_MIXER); dbg_printk(TPACPI_DBG_MIXER, "updated NVRAM mixer status to 0x%02x (0x%02x)\n", (unsigned int) lec, (unsigned int) b_nvram); } else { vdbg_printk(TPACPI_DBG_MIXER, "NVRAM mixer status already is 0x%02x (0x%02x)\n", (unsigned int) lec, (unsigned int) b_nvram); } unlock: mutex_unlock(&volume_mutex); } static int volume_get_status_ec(u8 *status) { u8 s; if (!acpi_ec_read(TP_EC_AUDIO, &s)) return -EIO; *status = s; dbg_printk(TPACPI_DBG_MIXER, "status 0x%02x\n", s); return 0; } static int volume_get_status(u8 *status) { return volume_get_status_ec(status); } static int volume_set_status_ec(const u8 status) { if (!acpi_ec_write(TP_EC_AUDIO, status)) return -EIO; dbg_printk(TPACPI_DBG_MIXER, "set EC mixer to 0x%02x\n", status); /* * On X200s, and possibly on others, it can take a while for * reads to become correct. */ msleep(1); return 0; } static int volume_set_status(const u8 status) { return volume_set_status_ec(status); } /* returns < 0 on error, 0 on no change, 1 on change */ static int __volume_set_mute_ec(const bool mute) { int rc; u8 s, n; if (mutex_lock_killable(&volume_mutex) < 0) return -EINTR; rc = volume_get_status_ec(&s); if (rc) goto unlock; n = (mute) ? s | TP_EC_AUDIO_MUTESW_MSK : s & ~TP_EC_AUDIO_MUTESW_MSK; if (n != s) { rc = volume_set_status_ec(n); if (!rc) rc = 1; } unlock: mutex_unlock(&volume_mutex); return rc; } static int volume_alsa_set_mute(const bool mute) { dbg_printk(TPACPI_DBG_MIXER, "ALSA: trying to %smute\n", (mute) ? "" : "un"); return __volume_set_mute_ec(mute); } static int volume_set_mute(const bool mute) { int rc; dbg_printk(TPACPI_DBG_MIXER, "trying to %smute\n", (mute) ? "" : "un"); rc = __volume_set_mute_ec(mute); return (rc < 0) ? rc : 0; } /* returns < 0 on error, 0 on no change, 1 on change */ static int __volume_set_volume_ec(const u8 vol) { int rc; u8 s, n; if (vol > TP_EC_VOLUME_MAX) return -EINVAL; if (mutex_lock_killable(&volume_mutex) < 0) return -EINTR; rc = volume_get_status_ec(&s); if (rc) goto unlock; n = (s & ~TP_EC_AUDIO_LVL_MSK) | vol; if (n != s) { rc = volume_set_status_ec(n); if (!rc) rc = 1; } unlock: mutex_unlock(&volume_mutex); return rc; } static int volume_set_software_mute(bool startup) { int result; if (!tpacpi_is_lenovo()) return -ENODEV; if (startup) { if (!acpi_evalf(ec_handle, &software_mute_orig_mode, "HAUM", "qd")) return -EIO; dbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_MIXER, "Initial HAUM setting was %d\n", software_mute_orig_mode); } if (!acpi_evalf(ec_handle, &result, "SAUM", "qdd", (int)TP_EC_MUTE_BTN_NONE)) return -EIO; if (result != TP_EC_MUTE_BTN_NONE) pr_warn("Unexpected SAUM result %d\n", result); /* * In software mute mode, the standard codec controls take * precendence, so we unmute the ThinkPad HW switch at * startup. Just on case there are SAUM-capable ThinkPads * with level controls, set max HW volume as well. */ if (tp_features.mixer_no_level_control) result = volume_set_mute(false); else result = volume_set_status(TP_EC_VOLUME_MAX); if (result != 0) pr_warn("Failed to unmute the HW mute switch\n"); return 0; } static void volume_exit_software_mute(void) { int r; if (!acpi_evalf(ec_handle, &r, "SAUM", "qdd", software_mute_orig_mode) || r != software_mute_orig_mode) pr_warn("Failed to restore mute mode\n"); } static int volume_alsa_set_volume(const u8 vol) { dbg_printk(TPACPI_DBG_MIXER, "ALSA: trying to set volume level to %hu\n", vol); return __volume_set_volume_ec(vol); } static void volume_alsa_notify_change(void) { struct tpacpi_alsa_data *d; if (alsa_card && alsa_card->private_data) { d = alsa_card->private_data; if (d->ctl_mute_id) snd_ctl_notify(alsa_card, SNDRV_CTL_EVENT_MASK_VALUE, d->ctl_mute_id); if (d->ctl_vol_id) snd_ctl_notify(alsa_card, SNDRV_CTL_EVENT_MASK_VALUE, d->ctl_vol_id); } } static int volume_alsa_vol_info(struct snd_kcontrol *kcontrol, struct snd_ctl_elem_info *uinfo) { uinfo->type = SNDRV_CTL_ELEM_TYPE_INTEGER; uinfo->count = 1; uinfo->value.integer.min = 0; uinfo->value.integer.max = TP_EC_VOLUME_MAX; return 0; } static int volume_alsa_vol_get(struct snd_kcontrol *kcontrol, struct snd_ctl_elem_value *ucontrol) { u8 s; int rc; rc = volume_get_status(&s); if (rc < 0) return rc; ucontrol->value.integer.value[0] = s & TP_EC_AUDIO_LVL_MSK; return 0; } static int volume_alsa_vol_put(struct snd_kcontrol *kcontrol, struct snd_ctl_elem_value *ucontrol) { tpacpi_disclose_usertask("ALSA", "set volume to %ld\n", ucontrol->value.integer.value[0]); return volume_alsa_set_volume(ucontrol->value.integer.value[0]); } #define volume_alsa_mute_info snd_ctl_boolean_mono_info static int volume_alsa_mute_get(struct snd_kcontrol *kcontrol, struct snd_ctl_elem_value *ucontrol) { u8 s; int rc; rc = volume_get_status(&s); if (rc < 0) return rc; ucontrol->value.integer.value[0] = (s & TP_EC_AUDIO_MUTESW_MSK) ? 0 : 1; return 0; } static int volume_alsa_mute_put(struct snd_kcontrol *kcontrol, struct snd_ctl_elem_value *ucontrol) { tpacpi_disclose_usertask("ALSA", "%smute\n", ucontrol->value.integer.value[0] ? "un" : ""); return volume_alsa_set_mute(!ucontrol->value.integer.value[0]); } static struct snd_kcontrol_new volume_alsa_control_vol __initdata = { .iface = SNDRV_CTL_ELEM_IFACE_MIXER, .name = "Console Playback Volume", .index = 0, .access = SNDRV_CTL_ELEM_ACCESS_READ, .info = volume_alsa_vol_info, .get = volume_alsa_vol_get, }; static struct snd_kcontrol_new volume_alsa_control_mute __initdata = { .iface = SNDRV_CTL_ELEM_IFACE_MIXER, .name = "Console Playback Switch", .index = 0, .access = SNDRV_CTL_ELEM_ACCESS_READ, .info = volume_alsa_mute_info, .get = volume_alsa_mute_get, }; static void volume_suspend(void) { tpacpi_volume_checkpoint_nvram(); } static void volume_resume(void) { if (software_mute_active) { if (volume_set_software_mute(false) < 0) pr_warn("Failed to restore software mute\n"); } else { volume_alsa_notify_change(); } } static void volume_shutdown(void) { tpacpi_volume_checkpoint_nvram(); } static void volume_exit(void) { if (alsa_card) { snd_card_free(alsa_card); alsa_card = NULL; } tpacpi_volume_checkpoint_nvram(); if (software_mute_active) volume_exit_software_mute(); } static int __init volume_create_alsa_mixer(void) { struct snd_card *card; struct tpacpi_alsa_data *data; struct snd_kcontrol *ctl_vol; struct snd_kcontrol *ctl_mute; int rc; rc = snd_card_new(&tpacpi_pdev->dev, alsa_index, alsa_id, THIS_MODULE, sizeof(struct tpacpi_alsa_data), &card); if (rc < 0 || !card) { pr_err("Failed to create ALSA card structures: %d\n", rc); return -ENODEV; } BUG_ON(!card->private_data); data = card->private_data; data->card = card; strscpy(card->driver, TPACPI_ALSA_DRVNAME, sizeof(card->driver)); strscpy(card->shortname, TPACPI_ALSA_SHRTNAME, sizeof(card->shortname)); snprintf(card->mixername, sizeof(card->mixername), "ThinkPad EC %s", (thinkpad_id.ec_version_str) ? thinkpad_id.ec_version_str : "(unknown)"); snprintf(card->longname, sizeof(card->longname), "%s at EC reg 0x%02x, fw %s", card->shortname, TP_EC_AUDIO, (thinkpad_id.ec_version_str) ? thinkpad_id.ec_version_str : "unknown"); if (volume_control_allowed) { volume_alsa_control_vol.put = volume_alsa_vol_put; volume_alsa_control_vol.access = SNDRV_CTL_ELEM_ACCESS_READWRITE; volume_alsa_control_mute.put = volume_alsa_mute_put; volume_alsa_control_mute.access = SNDRV_CTL_ELEM_ACCESS_READWRITE; } if (!tp_features.mixer_no_level_control) { ctl_vol = snd_ctl_new1(&volume_alsa_control_vol, NULL); rc = snd_ctl_add(card, ctl_vol); if (rc < 0) { pr_err("Failed to create ALSA volume control: %d\n", rc); goto err_exit; } data->ctl_vol_id = &ctl_vol->id; } ctl_mute = snd_ctl_new1(&volume_alsa_control_mute, NULL); rc = snd_ctl_add(card, ctl_mute); if (rc < 0) { pr_err("Failed to create ALSA mute control: %d\n", rc); goto err_exit; } data->ctl_mute_id = &ctl_mute->id; rc = snd_card_register(card); if (rc < 0) { pr_err("Failed to register ALSA card: %d\n", rc); goto err_exit; } alsa_card = card; return 0; err_exit: snd_card_free(card); return -ENODEV; } #define TPACPI_VOL_Q_MUTEONLY 0x0001 /* Mute-only control available */ #define TPACPI_VOL_Q_LEVEL 0x0002 /* Volume control available */ static const struct tpacpi_quirk volume_quirk_table[] __initconst = { /* Whitelist volume level on all IBM by default */ { .vendor = PCI_VENDOR_ID_IBM, .bios = TPACPI_MATCH_ANY, .ec = TPACPI_MATCH_ANY, .quirks = TPACPI_VOL_Q_LEVEL }, /* Lenovo models with volume control (needs confirmation) */ TPACPI_QEC_LNV('7', 'C', TPACPI_VOL_Q_LEVEL), /* R60/i */ TPACPI_QEC_LNV('7', 'E', TPACPI_VOL_Q_LEVEL), /* R60e/i */ TPACPI_QEC_LNV('7', '9', TPACPI_VOL_Q_LEVEL), /* T60/p */ TPACPI_QEC_LNV('7', 'B', TPACPI_VOL_Q_LEVEL), /* X60/s */ TPACPI_QEC_LNV('7', 'J', TPACPI_VOL_Q_LEVEL), /* X60t */ TPACPI_QEC_LNV('7', '7', TPACPI_VOL_Q_LEVEL), /* Z60 */ TPACPI_QEC_LNV('7', 'F', TPACPI_VOL_Q_LEVEL), /* Z61 */ /* Whitelist mute-only on all Lenovo by default */ { .vendor = PCI_VENDOR_ID_LENOVO, .bios = TPACPI_MATCH_ANY, .ec = TPACPI_MATCH_ANY, .quirks = TPACPI_VOL_Q_MUTEONLY } }; static int __init volume_init(struct ibm_init_struct *iibm) { unsigned long quirks; int rc; vdbg_printk(TPACPI_DBG_INIT, "initializing volume subdriver\n"); mutex_init(&volume_mutex); /* * Check for module parameter bogosity, note that we * init volume_mode to TPACPI_VOL_MODE_MAX in order to be * able to detect "unspecified" */ if (volume_mode > TPACPI_VOL_MODE_MAX) return -EINVAL; if (volume_mode == TPACPI_VOL_MODE_UCMS_STEP) { pr_err("UCMS step volume mode not implemented, please contact %s\n", TPACPI_MAIL); return -ENODEV; } if (volume_capabilities >= TPACPI_VOL_CAP_MAX) return -EINVAL; /* * The ALSA mixer is our primary interface. * When disabled, don't install the subdriver at all */ if (!alsa_enable) { vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_MIXER, "ALSA mixer disabled by parameter, not loading volume subdriver...\n"); return -ENODEV; } quirks = tpacpi_check_quirks(volume_quirk_table, ARRAY_SIZE(volume_quirk_table)); switch (volume_capabilities) { case TPACPI_VOL_CAP_AUTO: if (quirks & TPACPI_VOL_Q_MUTEONLY) tp_features.mixer_no_level_control = 1; else if (quirks & TPACPI_VOL_Q_LEVEL) tp_features.mixer_no_level_control = 0; else return -ENODEV; /* no mixer */ break; case TPACPI_VOL_CAP_VOLMUTE: tp_features.mixer_no_level_control = 0; break; case TPACPI_VOL_CAP_MUTEONLY: tp_features.mixer_no_level_control = 1; break; default: return -ENODEV; } if (volume_capabilities != TPACPI_VOL_CAP_AUTO) dbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_MIXER, "using user-supplied volume_capabilities=%d\n", volume_capabilities); if (volume_mode == TPACPI_VOL_MODE_AUTO || volume_mode == TPACPI_VOL_MODE_MAX) { volume_mode = TPACPI_VOL_MODE_ECNVRAM; dbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_MIXER, "driver auto-selected volume_mode=%d\n", volume_mode); } else { dbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_MIXER, "using user-supplied volume_mode=%d\n", volume_mode); } vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_MIXER, "mute is supported, volume control is %s\n", str_supported(!tp_features.mixer_no_level_control)); if (software_mute_requested && volume_set_software_mute(true) == 0) { software_mute_active = true; } else { rc = volume_create_alsa_mixer(); if (rc) { pr_err("Could not create the ALSA mixer interface\n"); return rc; } pr_info("Console audio control enabled, mode: %s\n", (volume_control_allowed) ? "override (read/write)" : "monitor (read only)"); } vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_MIXER, "registering volume hotkeys as change notification\n"); tpacpi_hotkey_driver_mask_set(hotkey_driver_mask | TP_ACPI_HKEY_VOLUP_MASK | TP_ACPI_HKEY_VOLDWN_MASK | TP_ACPI_HKEY_MUTE_MASK); return 0; } static int volume_read(struct seq_file *m) { u8 status; if (volume_get_status(&status) < 0) { seq_printf(m, "level:\t\tunreadable\n"); } else { if (tp_features.mixer_no_level_control) seq_printf(m, "level:\t\tunsupported\n"); else seq_printf(m, "level:\t\t%d\n", status & TP_EC_AUDIO_LVL_MSK); seq_printf(m, "mute:\t\t%s\n", str_on_off(status & BIT(TP_EC_AUDIO_MUTESW))); if (volume_control_allowed) { seq_printf(m, "commands:\tunmute, mute\n"); if (!tp_features.mixer_no_level_control) { seq_printf(m, "commands:\tup, down\n"); seq_printf(m, "commands:\tlevel <level> (<level> is 0-%d)\n", TP_EC_VOLUME_MAX); } } } return 0; } static int volume_write(char *buf) { u8 s; u8 new_level, new_mute; int l; char *cmd; int rc; /* * We do allow volume control at driver startup, so that the * user can set initial state through the volume=... parameter hack. */ if (!volume_control_allowed && tpacpi_lifecycle != TPACPI_LIFE_INIT) { if (unlikely(!tp_warned.volume_ctrl_forbidden)) { tp_warned.volume_ctrl_forbidden = 1; pr_notice("Console audio control in monitor mode, changes are not allowed\n"); pr_notice("Use the volume_control=1 module parameter to enable volume control\n"); } return -EPERM; } rc = volume_get_status(&s); if (rc < 0) return rc; new_level = s & TP_EC_AUDIO_LVL_MSK; new_mute = s & TP_EC_AUDIO_MUTESW_MSK; while ((cmd = strsep(&buf, ","))) { if (!tp_features.mixer_no_level_control) { if (strstarts(cmd, "up")) { if (new_mute) new_mute = 0; else if (new_level < TP_EC_VOLUME_MAX) new_level++; continue; } else if (strstarts(cmd, "down")) { if (new_mute) new_mute = 0; else if (new_level > 0) new_level--; continue; } else if (sscanf(cmd, "level %u", &l) == 1 && l >= 0 && l <= TP_EC_VOLUME_MAX) { new_level = l; continue; } } if (strstarts(cmd, "mute")) new_mute = TP_EC_AUDIO_MUTESW_MSK; else if (strstarts(cmd, "unmute")) new_mute = 0; else return -EINVAL; } if (tp_features.mixer_no_level_control) { tpacpi_disclose_usertask("procfs volume", "%smute\n", new_mute ? "" : "un"); rc = volume_set_mute(!!new_mute); } else { tpacpi_disclose_usertask("procfs volume", "%smute and set level to %d\n", new_mute ? "" : "un", new_level); rc = volume_set_status(new_mute | new_level); } volume_alsa_notify_change(); return (rc == -EINTR) ? -ERESTARTSYS : rc; } static struct ibm_struct volume_driver_data = { .name = "volume", .read = volume_read, .write = volume_write, .exit = volume_exit, .suspend = volume_suspend, .resume = volume_resume, .shutdown = volume_shutdown, }; #else /* !CONFIG_THINKPAD_ACPI_ALSA_SUPPORT */ #define alsa_card NULL static inline void volume_alsa_notify_change(void) { } static int __init volume_init(struct ibm_init_struct *iibm) { pr_info("volume: disabled as there is no ALSA support in this kernel\n"); return -ENODEV; } static struct ibm_struct volume_driver_data = { .name = "volume", }; #endif /* CONFIG_THINKPAD_ACPI_ALSA_SUPPORT */ /************************************************************************* * Fan subdriver */ /* * FAN ACCESS MODES * * TPACPI_FAN_RD_ACPI_GFAN: * ACPI GFAN method: returns fan level * * see TPACPI_FAN_WR_ACPI_SFAN * EC 0x2f (HFSP) not available if GFAN exists * * TPACPI_FAN_WR_ACPI_SFAN: * ACPI SFAN method: sets fan level, 0 (stop) to 7 (max) * * EC 0x2f (HFSP) might be available *for reading*, but do not use * it for writing. * * TPACPI_FAN_WR_TPEC: * ThinkPad EC register 0x2f (HFSP): fan control loop mode * Supported on almost all ThinkPads * * Fan speed changes of any sort (including those caused by the * disengaged mode) are usually done slowly by the firmware as the * maximum amount of fan duty cycle change per second seems to be * limited. * * Reading is not available if GFAN exists. * Writing is not available if SFAN exists. * * Bits * 7 automatic mode engaged; * (default operation mode of the ThinkPad) * fan level is ignored in this mode. * 6 full speed mode (takes precedence over bit 7); * not available on all thinkpads. May disable * the tachometer while the fan controller ramps up * the speed (which can take up to a few *minutes*). * Speeds up fan to 100% duty-cycle, which is far above * the standard RPM levels. It is not impossible that * it could cause hardware damage. * 5-3 unused in some models. Extra bits for fan level * in others, but still useless as all values above * 7 map to the same speed as level 7 in these models. * 2-0 fan level (0..7 usually) * 0x00 = stop * 0x07 = max (set when temperatures critical) * Some ThinkPads may have other levels, see * TPACPI_FAN_WR_ACPI_FANS (X31/X40/X41) * * FIRMWARE BUG: on some models, EC 0x2f might not be initialized at * boot. Apparently the EC does not initialize it, so unless ACPI DSDT * does so, its initial value is meaningless (0x07). * * For firmware bugs, refer to: * https://thinkwiki.org/wiki/Embedded_Controller_Firmware#Firmware_Issues * * ---- * * ThinkPad EC register 0x84 (LSB), 0x85 (MSB): * Main fan tachometer reading (in RPM) * * This register is present on all ThinkPads with a new-style EC, and * it is known not to be present on the A21m/e, and T22, as there is * something else in offset 0x84 according to the ACPI DSDT. Other * ThinkPads from this same time period (and earlier) probably lack the * tachometer as well. * * Unfortunately a lot of ThinkPads with new-style ECs but whose firmware * was never fixed by IBM to report the EC firmware version string * probably support the tachometer (like the early X models), so * detecting it is quite hard. We need more data to know for sure. * * FIRMWARE BUG: always read 0x84 first, otherwise incorrect readings * might result. * * FIRMWARE BUG: may go stale while the EC is switching to full speed * mode. * * For firmware bugs, refer to: * https://thinkwiki.org/wiki/Embedded_Controller_Firmware#Firmware_Issues * * ---- * * ThinkPad EC register 0x31 bit 0 (only on select models) * * When bit 0 of EC register 0x31 is zero, the tachometer registers * show the speed of the main fan. When bit 0 of EC register 0x31 * is one, the tachometer registers show the speed of the auxiliary * fan. * * Fan control seems to affect both fans, regardless of the state * of this bit. * * So far, only the firmware for the X60/X61 non-tablet versions * seem to support this (firmware TP-7M). * * TPACPI_FAN_WR_ACPI_FANS: * ThinkPad X31, X40, X41. Not available in the X60. * * FANS ACPI handle: takes three arguments: low speed, medium speed, * high speed. ACPI DSDT seems to map these three speeds to levels * as follows: STOP LOW LOW MED MED HIGH HIGH HIGH HIGH * (this map is stored on FAN0..FAN8 as "0,1,1,2,2,3,3,3,3") * * The speeds are stored on handles * (FANA:FAN9), (FANC:FANB), (FANE:FAND). * * There are three default speed sets, accessible as handles: * FS1L,FS1M,FS1H; FS2L,FS2M,FS2H; FS3L,FS3M,FS3H * * ACPI DSDT switches which set is in use depending on various * factors. * * TPACPI_FAN_WR_TPEC is also available and should be used to * command the fan. The X31/X40/X41 seems to have 8 fan levels, * but the ACPI tables just mention level 7. */ enum { /* Fan control constants */ fan_status_offset = 0x2f, /* EC register 0x2f */ fan_rpm_offset = 0x84, /* EC register 0x84: LSB, 0x85 MSB (RPM) * 0x84 must be read before 0x85 */ fan_select_offset = 0x31, /* EC register 0x31 (Firmware 7M) bit 0 selects which fan is active */ TP_EC_FAN_FULLSPEED = 0x40, /* EC fan mode: full speed */ TP_EC_FAN_AUTO = 0x80, /* EC fan mode: auto fan control */ TPACPI_FAN_LAST_LEVEL = 0x100, /* Use cached last-seen fan level */ }; enum fan_status_access_mode { TPACPI_FAN_NONE = 0, /* No fan status or control */ TPACPI_FAN_RD_ACPI_GFAN, /* Use ACPI GFAN */ TPACPI_FAN_RD_TPEC, /* Use ACPI EC regs 0x2f, 0x84-0x85 */ }; enum fan_control_access_mode { TPACPI_FAN_WR_NONE = 0, /* No fan control */ TPACPI_FAN_WR_ACPI_SFAN, /* Use ACPI SFAN */ TPACPI_FAN_WR_TPEC, /* Use ACPI EC reg 0x2f */ TPACPI_FAN_WR_ACPI_FANS, /* Use ACPI FANS and EC reg 0x2f */ }; enum fan_control_commands { TPACPI_FAN_CMD_SPEED = 0x0001, /* speed command */ TPACPI_FAN_CMD_LEVEL = 0x0002, /* level command */ TPACPI_FAN_CMD_ENABLE = 0x0004, /* enable/disable cmd, * and also watchdog cmd */ }; static bool fan_control_allowed; static enum fan_status_access_mode fan_status_access_mode; static enum fan_control_access_mode fan_control_access_mode; static enum fan_control_commands fan_control_commands; static u8 fan_control_initial_status; static u8 fan_control_desired_level; static u8 fan_control_resume_level; static int fan_watchdog_maxinterval; static struct mutex fan_mutex; static void fan_watchdog_fire(struct work_struct *ignored); static DECLARE_DELAYED_WORK(fan_watchdog_task, fan_watchdog_fire); TPACPI_HANDLE(fans, ec, "FANS"); /* X31, X40, X41 */ TPACPI_HANDLE(gfan, ec, "GFAN", /* 570 */ "\\FSPD", /* 600e/x, 770e, 770x */ ); /* all others */ TPACPI_HANDLE(sfan, ec, "SFAN", /* 570 */ "JFNS", /* 770x-JL */ ); /* all others */ /* * Unitialized HFSP quirk: ACPI DSDT and EC fail to initialize the * HFSP register at boot, so it contains 0x07 but the Thinkpad could * be in auto mode (0x80). * * This is corrected by any write to HFSP either by the driver, or * by the firmware. * * We assume 0x07 really means auto mode while this quirk is active, * as this is far more likely than the ThinkPad being in level 7, * which is only used by the firmware during thermal emergencies. * * Enable for TP-1Y (T43), TP-78 (R51e), TP-76 (R52), * TP-70 (T43, R52), which are known to be buggy. */ static void fan_quirk1_setup(void) { if (fan_control_initial_status == 0x07) { pr_notice("fan_init: initial fan status is unknown, assuming it is in auto mode\n"); tp_features.fan_ctrl_status_undef = 1; } } static void fan_quirk1_handle(u8 *fan_status) { if (unlikely(tp_features.fan_ctrl_status_undef)) { if (*fan_status != fan_control_initial_status) { /* something changed the HFSP regisnter since * driver init time, so it is not undefined * anymore */ tp_features.fan_ctrl_status_undef = 0; } else { /* Return most likely status. In fact, it * might be the only possible status */ *fan_status = TP_EC_FAN_AUTO; } } } /* Select main fan on X60/X61, NOOP on others */ static bool fan_select_fan1(void) { if (tp_features.second_fan) { u8 val; if (ec_read(fan_select_offset, &val) < 0) return false; val &= 0xFEU; if (ec_write(fan_select_offset, val) < 0) return false; } return true; } /* Select secondary fan on X60/X61 */ static bool fan_select_fan2(void) { u8 val; if (!tp_features.second_fan) return false; if (ec_read(fan_select_offset, &val) < 0) return false; val |= 0x01U; if (ec_write(fan_select_offset, val) < 0) return false; return true; } /* * Call with fan_mutex held */ static void fan_update_desired_level(u8 status) { if ((status & (TP_EC_FAN_AUTO | TP_EC_FAN_FULLSPEED)) == 0) { if (status > 7) fan_control_desired_level = 7; else fan_control_desired_level = status; } } static int fan_get_status(u8 *status) { u8 s; /* TODO: * Add TPACPI_FAN_RD_ACPI_FANS ? */ switch (fan_status_access_mode) { case TPACPI_FAN_RD_ACPI_GFAN: { /* 570, 600e/x, 770e, 770x */ int res; if (unlikely(!acpi_evalf(gfan_handle, &res, NULL, "d"))) return -EIO; if (likely(status)) *status = res & 0x07; break; } case TPACPI_FAN_RD_TPEC: /* all except 570, 600e/x, 770e, 770x */ if (unlikely(!acpi_ec_read(fan_status_offset, &s))) return -EIO; if (likely(status)) { *status = s; fan_quirk1_handle(status); } break; default: return -ENXIO; } return 0; } static int fan_get_status_safe(u8 *status) { int rc; u8 s; if (mutex_lock_killable(&fan_mutex)) return -ERESTARTSYS; rc = fan_get_status(&s); if (!rc) fan_update_desired_level(s); mutex_unlock(&fan_mutex); if (rc) return rc; if (status) *status = s; return 0; } static int fan_get_speed(unsigned int *speed) { u8 hi, lo; switch (fan_status_access_mode) { case TPACPI_FAN_RD_TPEC: /* all except 570, 600e/x, 770e, 770x */ if (unlikely(!fan_select_fan1())) return -EIO; if (unlikely(!acpi_ec_read(fan_rpm_offset, &lo) || !acpi_ec_read(fan_rpm_offset + 1, &hi))) return -EIO; if (likely(speed)) *speed = (hi << 8) | lo; break; default: return -ENXIO; } return 0; } static int fan2_get_speed(unsigned int *speed) { u8 hi, lo; bool rc; switch (fan_status_access_mode) { case TPACPI_FAN_RD_TPEC: /* all except 570, 600e/x, 770e, 770x */ if (unlikely(!fan_select_fan2())) return -EIO; rc = !acpi_ec_read(fan_rpm_offset, &lo) || !acpi_ec_read(fan_rpm_offset + 1, &hi); fan_select_fan1(); /* play it safe */ if (rc) return -EIO; if (likely(speed)) *speed = (hi << 8) | lo; break; default: return -ENXIO; } return 0; } static int fan_set_level(int level) { if (!fan_control_allowed) return -EPERM; switch (fan_control_access_mode) { case TPACPI_FAN_WR_ACPI_SFAN: if ((level < 0) || (level > 7)) return -EINVAL; if (tp_features.second_fan_ctl) { if (!fan_select_fan2() || !acpi_evalf(sfan_handle, NULL, NULL, "vd", level)) { pr_warn("Couldn't set 2nd fan level, disabling support\n"); tp_features.second_fan_ctl = 0; } fan_select_fan1(); } if (!acpi_evalf(sfan_handle, NULL, NULL, "vd", level)) return -EIO; break; case TPACPI_FAN_WR_ACPI_FANS: case TPACPI_FAN_WR_TPEC: if (!(level & TP_EC_FAN_AUTO) && !(level & TP_EC_FAN_FULLSPEED) && ((level < 0) || (level > 7))) return -EINVAL; /* safety net should the EC not support AUTO * or FULLSPEED mode bits and just ignore them */ if (level & TP_EC_FAN_FULLSPEED) level |= 7; /* safety min speed 7 */ else if (level & TP_EC_FAN_AUTO) level |= 4; /* safety min speed 4 */ if (tp_features.second_fan_ctl) { if (!fan_select_fan2() || !acpi_ec_write(fan_status_offset, level)) { pr_warn("Couldn't set 2nd fan level, disabling support\n"); tp_features.second_fan_ctl = 0; } fan_select_fan1(); } if (!acpi_ec_write(fan_status_offset, level)) return -EIO; else tp_features.fan_ctrl_status_undef = 0; break; default: return -ENXIO; } vdbg_printk(TPACPI_DBG_FAN, "fan control: set fan control register to 0x%02x\n", level); return 0; } static int fan_set_level_safe(int level) { int rc; if (!fan_control_allowed) return -EPERM; if (mutex_lock_killable(&fan_mutex)) return -ERESTARTSYS; if (level == TPACPI_FAN_LAST_LEVEL) level = fan_control_desired_level; rc = fan_set_level(level); if (!rc) fan_update_desired_level(level); mutex_unlock(&fan_mutex); return rc; } static int fan_set_enable(void) { u8 s; int rc; if (!fan_control_allowed) return -EPERM; if (mutex_lock_killable(&fan_mutex)) return -ERESTARTSYS; switch (fan_control_access_mode) { case TPACPI_FAN_WR_ACPI_FANS: case TPACPI_FAN_WR_TPEC: rc = fan_get_status(&s); if (rc) break; /* Don't go out of emergency fan mode */ if (s != 7) { s &= 0x07; s |= TP_EC_FAN_AUTO | 4; /* min fan speed 4 */ } if (!acpi_ec_write(fan_status_offset, s)) rc = -EIO; else { tp_features.fan_ctrl_status_undef = 0; rc = 0; } break; case TPACPI_FAN_WR_ACPI_SFAN: rc = fan_get_status(&s); if (rc) break; s &= 0x07; /* Set fan to at least level 4 */ s |= 4; if (!acpi_evalf(sfan_handle, NULL, NULL, "vd", s)) rc = -EIO; else rc = 0; break; default: rc = -ENXIO; } mutex_unlock(&fan_mutex); if (!rc) vdbg_printk(TPACPI_DBG_FAN, "fan control: set fan control register to 0x%02x\n", s); return rc; } static int fan_set_disable(void) { int rc; if (!fan_control_allowed) return -EPERM; if (mutex_lock_killable(&fan_mutex)) return -ERESTARTSYS; rc = 0; switch (fan_control_access_mode) { case TPACPI_FAN_WR_ACPI_FANS: case TPACPI_FAN_WR_TPEC: if (!acpi_ec_write(fan_status_offset, 0x00)) rc = -EIO; else { fan_control_desired_level = 0; tp_features.fan_ctrl_status_undef = 0; } break; case TPACPI_FAN_WR_ACPI_SFAN: if (!acpi_evalf(sfan_handle, NULL, NULL, "vd", 0x00)) rc = -EIO; else fan_control_desired_level = 0; break; default: rc = -ENXIO; } if (!rc) vdbg_printk(TPACPI_DBG_FAN, "fan control: set fan control register to 0\n"); mutex_unlock(&fan_mutex); return rc; } static int fan_set_speed(int speed) { int rc; if (!fan_control_allowed) return -EPERM; if (mutex_lock_killable(&fan_mutex)) return -ERESTARTSYS; rc = 0; switch (fan_control_access_mode) { case TPACPI_FAN_WR_ACPI_FANS: if (speed >= 0 && speed <= 65535) { if (!acpi_evalf(fans_handle, NULL, NULL, "vddd", speed, speed, speed)) rc = -EIO; } else rc = -EINVAL; break; default: rc = -ENXIO; } mutex_unlock(&fan_mutex); return rc; } static void fan_watchdog_reset(void) { if (fan_control_access_mode == TPACPI_FAN_WR_NONE) return; if (fan_watchdog_maxinterval > 0 && tpacpi_lifecycle != TPACPI_LIFE_EXITING) mod_delayed_work(tpacpi_wq, &fan_watchdog_task, msecs_to_jiffies(fan_watchdog_maxinterval * 1000)); else cancel_delayed_work(&fan_watchdog_task); } static void fan_watchdog_fire(struct work_struct *ignored) { int rc; if (tpacpi_lifecycle != TPACPI_LIFE_RUNNING) return; pr_notice("fan watchdog: enabling fan\n"); rc = fan_set_enable(); if (rc < 0) { pr_err("fan watchdog: error %d while enabling fan, will try again later...\n", rc); /* reschedule for later */ fan_watchdog_reset(); } } /* * SYSFS fan layout: hwmon compatible (device) * * pwm*_enable: * 0: "disengaged" mode * 1: manual mode * 2: native EC "auto" mode (recommended, hardware default) * * pwm*: set speed in manual mode, ignored otherwise. * 0 is level 0; 255 is level 7. Intermediate points done with linear * interpolation. * * fan*_input: tachometer reading, RPM * * * SYSFS fan layout: extensions * * fan_watchdog (driver): * fan watchdog interval in seconds, 0 disables (default), max 120 */ /* sysfs fan pwm1_enable ----------------------------------------------- */ static ssize_t fan_pwm1_enable_show(struct device *dev, struct device_attribute *attr, char *buf) { int res, mode; u8 status; res = fan_get_status_safe(&status); if (res) return res; if (status & TP_EC_FAN_FULLSPEED) { mode = 0; } else if (status & TP_EC_FAN_AUTO) { mode = 2; } else mode = 1; return sysfs_emit(buf, "%d\n", mode); } static ssize_t fan_pwm1_enable_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { unsigned long t; int res, level; if (parse_strtoul(buf, 2, &t)) return -EINVAL; tpacpi_disclose_usertask("hwmon pwm1_enable", "set fan mode to %lu\n", t); switch (t) { case 0: level = TP_EC_FAN_FULLSPEED; break; case 1: level = TPACPI_FAN_LAST_LEVEL; break; case 2: level = TP_EC_FAN_AUTO; break; case 3: /* reserved for software-controlled auto mode */ return -ENOSYS; default: return -EINVAL; } res = fan_set_level_safe(level); if (res == -ENXIO) return -EINVAL; else if (res < 0) return res; fan_watchdog_reset(); return count; } static DEVICE_ATTR(pwm1_enable, S_IWUSR | S_IRUGO, fan_pwm1_enable_show, fan_pwm1_enable_store); /* sysfs fan pwm1 ------------------------------------------------------ */ static ssize_t fan_pwm1_show(struct device *dev, struct device_attribute *attr, char *buf) { int res; u8 status; res = fan_get_status_safe(&status); if (res) return res; if ((status & (TP_EC_FAN_AUTO | TP_EC_FAN_FULLSPEED)) != 0) status = fan_control_desired_level; if (status > 7) status = 7; return sysfs_emit(buf, "%u\n", (status * 255) / 7); } static ssize_t fan_pwm1_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { unsigned long s; int rc; u8 status, newlevel; if (parse_strtoul(buf, 255, &s)) return -EINVAL; tpacpi_disclose_usertask("hwmon pwm1", "set fan speed to %lu\n", s); /* scale down from 0-255 to 0-7 */ newlevel = (s >> 5) & 0x07; if (mutex_lock_killable(&fan_mutex)) return -ERESTARTSYS; rc = fan_get_status(&status); if (!rc && (status & (TP_EC_FAN_AUTO | TP_EC_FAN_FULLSPEED)) == 0) { rc = fan_set_level(newlevel); if (rc == -ENXIO) rc = -EINVAL; else if (!rc) { fan_update_desired_level(newlevel); fan_watchdog_reset(); } } mutex_unlock(&fan_mutex); return (rc) ? rc : count; } static DEVICE_ATTR(pwm1, S_IWUSR | S_IRUGO, fan_pwm1_show, fan_pwm1_store); /* sysfs fan fan1_input ------------------------------------------------ */ static ssize_t fan_fan1_input_show(struct device *dev, struct device_attribute *attr, char *buf) { int res; unsigned int speed; res = fan_get_speed(&speed); if (res < 0) return res; return sysfs_emit(buf, "%u\n", speed); } static DEVICE_ATTR(fan1_input, S_IRUGO, fan_fan1_input_show, NULL); /* sysfs fan fan2_input ------------------------------------------------ */ static ssize_t fan_fan2_input_show(struct device *dev, struct device_attribute *attr, char *buf) { int res; unsigned int speed; res = fan2_get_speed(&speed); if (res < 0) return res; return sysfs_emit(buf, "%u\n", speed); } static DEVICE_ATTR(fan2_input, S_IRUGO, fan_fan2_input_show, NULL); /* sysfs fan fan_watchdog (hwmon driver) ------------------------------- */ static ssize_t fan_watchdog_show(struct device_driver *drv, char *buf) { return sysfs_emit(buf, "%u\n", fan_watchdog_maxinterval); } static ssize_t fan_watchdog_store(struct device_driver *drv, const char *buf, size_t count) { unsigned long t; if (parse_strtoul(buf, 120, &t)) return -EINVAL; if (!fan_control_allowed) return -EPERM; fan_watchdog_maxinterval = t; fan_watchdog_reset(); tpacpi_disclose_usertask("fan_watchdog", "set to %lu\n", t); return count; } static DRIVER_ATTR_RW(fan_watchdog); /* --------------------------------------------------------------------- */ static struct attribute *fan_attributes[] = { &dev_attr_pwm1_enable.attr, &dev_attr_pwm1.attr, &dev_attr_fan1_input.attr, &dev_attr_fan2_input.attr, NULL }; static umode_t fan_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { if (fan_status_access_mode == TPACPI_FAN_NONE && fan_control_access_mode == TPACPI_FAN_WR_NONE) return 0; if (attr == &dev_attr_fan2_input.attr) { if (!tp_features.second_fan) return 0; } return attr->mode; } static const struct attribute_group fan_attr_group = { .is_visible = fan_attr_is_visible, .attrs = fan_attributes, }; static struct attribute *fan_driver_attributes[] = { &driver_attr_fan_watchdog.attr, NULL }; static const struct attribute_group fan_driver_attr_group = { .is_visible = fan_attr_is_visible, .attrs = fan_driver_attributes, }; #define TPACPI_FAN_Q1 0x0001 /* Uninitialized HFSP */ #define TPACPI_FAN_2FAN 0x0002 /* EC 0x31 bit 0 selects fan2 */ #define TPACPI_FAN_2CTL 0x0004 /* selects fan2 control */ #define TPACPI_FAN_NOFAN 0x0008 /* no fan available */ static const struct tpacpi_quirk fan_quirk_table[] __initconst = { TPACPI_QEC_IBM('1', 'Y', TPACPI_FAN_Q1), TPACPI_QEC_IBM('7', '8', TPACPI_FAN_Q1), TPACPI_QEC_IBM('7', '6', TPACPI_FAN_Q1), TPACPI_QEC_IBM('7', '0', TPACPI_FAN_Q1), TPACPI_QEC_LNV('7', 'M', TPACPI_FAN_2FAN), TPACPI_Q_LNV('N', '1', TPACPI_FAN_2FAN), TPACPI_Q_LNV3('N', '1', 'D', TPACPI_FAN_2CTL), /* P70 */ TPACPI_Q_LNV3('N', '1', 'E', TPACPI_FAN_2CTL), /* P50 */ TPACPI_Q_LNV3('N', '1', 'T', TPACPI_FAN_2CTL), /* P71 */ TPACPI_Q_LNV3('N', '1', 'U', TPACPI_FAN_2CTL), /* P51 */ TPACPI_Q_LNV3('N', '2', 'C', TPACPI_FAN_2CTL), /* P52 / P72 */ TPACPI_Q_LNV3('N', '2', 'N', TPACPI_FAN_2CTL), /* P53 / P73 */ TPACPI_Q_LNV3('N', '2', 'E', TPACPI_FAN_2CTL), /* P1 / X1 Extreme (1st gen) */ TPACPI_Q_LNV3('N', '2', 'O', TPACPI_FAN_2CTL), /* P1 / X1 Extreme (2nd gen) */ TPACPI_Q_LNV3('N', '3', '0', TPACPI_FAN_2CTL), /* P15 (1st gen) / P15v (1st gen) */ TPACPI_Q_LNV3('N', '3', '7', TPACPI_FAN_2CTL), /* T15g (2nd gen) */ TPACPI_Q_LNV3('N', '1', 'O', TPACPI_FAN_NOFAN), /* X1 Tablet (2nd gen) */ }; static int __init fan_init(struct ibm_init_struct *iibm) { unsigned long quirks; vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_FAN, "initializing fan subdriver\n"); mutex_init(&fan_mutex); fan_status_access_mode = TPACPI_FAN_NONE; fan_control_access_mode = TPACPI_FAN_WR_NONE; fan_control_commands = 0; fan_watchdog_maxinterval = 0; tp_features.fan_ctrl_status_undef = 0; tp_features.second_fan = 0; tp_features.second_fan_ctl = 0; fan_control_desired_level = 7; if (tpacpi_is_ibm()) { TPACPI_ACPIHANDLE_INIT(fans); TPACPI_ACPIHANDLE_INIT(gfan); TPACPI_ACPIHANDLE_INIT(sfan); } quirks = tpacpi_check_quirks(fan_quirk_table, ARRAY_SIZE(fan_quirk_table)); if (quirks & TPACPI_FAN_NOFAN) { pr_info("No integrated ThinkPad fan available\n"); return -ENODEV; } if (gfan_handle) { /* 570, 600e/x, 770e, 770x */ fan_status_access_mode = TPACPI_FAN_RD_ACPI_GFAN; } else { /* all other ThinkPads: note that even old-style * ThinkPad ECs supports the fan control register */ if (likely(acpi_ec_read(fan_status_offset, &fan_control_initial_status))) { int res; unsigned int speed; fan_status_access_mode = TPACPI_FAN_RD_TPEC; if (quirks & TPACPI_FAN_Q1) fan_quirk1_setup(); /* Try and probe the 2nd fan */ tp_features.second_fan = 1; /* needed for get_speed to work */ res = fan2_get_speed(&speed); if (res >= 0 && speed != FAN_NOT_PRESENT) { /* It responded - so let's assume it's there */ tp_features.second_fan = 1; tp_features.second_fan_ctl = 1; pr_info("secondary fan control detected & enabled\n"); } else { /* Fan not auto-detected */ tp_features.second_fan = 0; if (quirks & TPACPI_FAN_2FAN) { tp_features.second_fan = 1; pr_info("secondary fan support enabled\n"); } if (quirks & TPACPI_FAN_2CTL) { tp_features.second_fan = 1; tp_features.second_fan_ctl = 1; pr_info("secondary fan control enabled\n"); } } } else { pr_err("ThinkPad ACPI EC access misbehaving, fan status and control unavailable\n"); return -ENODEV; } } if (sfan_handle) { /* 570, 770x-JL */ fan_control_access_mode = TPACPI_FAN_WR_ACPI_SFAN; fan_control_commands |= TPACPI_FAN_CMD_LEVEL | TPACPI_FAN_CMD_ENABLE; } else { if (!gfan_handle) { /* gfan without sfan means no fan control */ /* all other models implement TP EC 0x2f control */ if (fans_handle) { /* X31, X40, X41 */ fan_control_access_mode = TPACPI_FAN_WR_ACPI_FANS; fan_control_commands |= TPACPI_FAN_CMD_SPEED | TPACPI_FAN_CMD_LEVEL | TPACPI_FAN_CMD_ENABLE; } else { fan_control_access_mode = TPACPI_FAN_WR_TPEC; fan_control_commands |= TPACPI_FAN_CMD_LEVEL | TPACPI_FAN_CMD_ENABLE; } } } vdbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_FAN, "fan is %s, modes %d, %d\n", str_supported(fan_status_access_mode != TPACPI_FAN_NONE || fan_control_access_mode != TPACPI_FAN_WR_NONE), fan_status_access_mode, fan_control_access_mode); /* fan control master switch */ if (!fan_control_allowed) { fan_control_access_mode = TPACPI_FAN_WR_NONE; fan_control_commands = 0; dbg_printk(TPACPI_DBG_INIT | TPACPI_DBG_FAN, "fan control features disabled by parameter\n"); } /* update fan_control_desired_level */ if (fan_status_access_mode != TPACPI_FAN_NONE) fan_get_status_safe(NULL); if (fan_status_access_mode == TPACPI_FAN_NONE && fan_control_access_mode == TPACPI_FAN_WR_NONE) return -ENODEV; return 0; } static void fan_exit(void) { vdbg_printk(TPACPI_DBG_EXIT | TPACPI_DBG_FAN, "cancelling any pending fan watchdog tasks\n"); cancel_delayed_work(&fan_watchdog_task); flush_workqueue(tpacpi_wq); } static void fan_suspend(void) { int rc; if (!fan_control_allowed) return; /* Store fan status in cache */ fan_control_resume_level = 0; rc = fan_get_status_safe(&fan_control_resume_level); if (rc) pr_notice("failed to read fan level for later restore during resume: %d\n", rc); /* if it is undefined, don't attempt to restore it. * KEEP THIS LAST */ if (tp_features.fan_ctrl_status_undef) fan_control_resume_level = 0; } static void fan_resume(void) { u8 current_level = 7; bool do_set = false; int rc; /* DSDT *always* updates status on resume */ tp_features.fan_ctrl_status_undef = 0; if (!fan_control_allowed || !fan_control_resume_level || fan_get_status_safe(¤t_level)) return; switch (fan_control_access_mode) { case TPACPI_FAN_WR_ACPI_SFAN: /* never decrease fan level */ do_set = (fan_control_resume_level > current_level); break; case TPACPI_FAN_WR_ACPI_FANS: case TPACPI_FAN_WR_TPEC: /* never decrease fan level, scale is: * TP_EC_FAN_FULLSPEED > 7 >= TP_EC_FAN_AUTO * * We expect the firmware to set either 7 or AUTO, but we * handle FULLSPEED out of paranoia. * * So, we can safely only restore FULLSPEED or 7, anything * else could slow the fan. Restoring AUTO is useless, at * best that's exactly what the DSDT already set (it is the * slower it uses). * * Always keep in mind that the DSDT *will* have set the * fans to what the vendor supposes is the best level. We * muck with it only to speed the fan up. */ if (fan_control_resume_level != 7 && !(fan_control_resume_level & TP_EC_FAN_FULLSPEED)) return; else do_set = !(current_level & TP_EC_FAN_FULLSPEED) && (current_level != fan_control_resume_level); break; default: return; } if (do_set) { pr_notice("restoring fan level to 0x%02x\n", fan_control_resume_level); rc = fan_set_level_safe(fan_control_resume_level); if (rc < 0) pr_notice("failed to restore fan level: %d\n", rc); } } static int fan_read(struct seq_file *m) { int rc; u8 status; unsigned int speed = 0; switch (fan_status_access_mode) { case TPACPI_FAN_RD_ACPI_GFAN: /* 570, 600e/x, 770e, 770x */ rc = fan_get_status_safe(&status); if (rc) return rc; seq_printf(m, "status:\t\t%s\n" "level:\t\t%d\n", str_enabled_disabled(status), status); break; case TPACPI_FAN_RD_TPEC: /* all except 570, 600e/x, 770e, 770x */ rc = fan_get_status_safe(&status); if (rc) return rc; seq_printf(m, "status:\t\t%s\n", str_enabled_disabled(status)); rc = fan_get_speed(&speed); if (rc < 0) return rc; seq_printf(m, "speed:\t\t%d\n", speed); if (status & TP_EC_FAN_FULLSPEED) /* Disengaged mode takes precedence */ seq_printf(m, "level:\t\tdisengaged\n"); else if (status & TP_EC_FAN_AUTO) seq_printf(m, "level:\t\tauto\n"); else seq_printf(m, "level:\t\t%d\n", status); break; case TPACPI_FAN_NONE: default: seq_printf(m, "status:\t\tnot supported\n"); } if (fan_control_commands & TPACPI_FAN_CMD_LEVEL) { seq_printf(m, "commands:\tlevel <level>"); switch (fan_control_access_mode) { case TPACPI_FAN_WR_ACPI_SFAN: seq_printf(m, " (<level> is 0-7)\n"); break; default: seq_printf(m, " (<level> is 0-7, auto, disengaged, full-speed)\n"); break; } } if (fan_control_commands & TPACPI_FAN_CMD_ENABLE) seq_printf(m, "commands:\tenable, disable\n" "commands:\twatchdog <timeout> (<timeout> is 0 (off), 1-120 (seconds))\n"); if (fan_control_commands & TPACPI_FAN_CMD_SPEED) seq_printf(m, "commands:\tspeed <speed> (<speed> is 0-65535)\n"); return 0; } static int fan_write_cmd_level(const char *cmd, int *rc) { int level; if (strstarts(cmd, "level auto")) level = TP_EC_FAN_AUTO; else if (strstarts(cmd, "level disengaged") || strstarts(cmd, "level full-speed")) level = TP_EC_FAN_FULLSPEED; else if (sscanf(cmd, "level %d", &level) != 1) return 0; *rc = fan_set_level_safe(level); if (*rc == -ENXIO) pr_err("level command accepted for unsupported access mode %d\n", fan_control_access_mode); else if (!*rc) tpacpi_disclose_usertask("procfs fan", "set level to %d\n", level); return 1; } static int fan_write_cmd_enable(const char *cmd, int *rc) { if (!strstarts(cmd, "enable")) return 0; *rc = fan_set_enable(); if (*rc == -ENXIO) pr_err("enable command accepted for unsupported access mode %d\n", fan_control_access_mode); else if (!*rc) tpacpi_disclose_usertask("procfs fan", "enable\n"); return 1; } static int fan_write_cmd_disable(const char *cmd, int *rc) { if (!strstarts(cmd, "disable")) return 0; *rc = fan_set_disable(); if (*rc == -ENXIO) pr_err("disable command accepted for unsupported access mode %d\n", fan_control_access_mode); else if (!*rc) tpacpi_disclose_usertask("procfs fan", "disable\n"); return 1; } static int fan_write_cmd_speed(const char *cmd, int *rc) { int speed; /* TODO: * Support speed <low> <medium> <high> ? */ if (sscanf(cmd, "speed %d", &speed) != 1) return 0; *rc = fan_set_speed(speed); if (*rc == -ENXIO) pr_err("speed command accepted for unsupported access mode %d\n", fan_control_access_mode); else if (!*rc) tpacpi_disclose_usertask("procfs fan", "set speed to %d\n", speed); return 1; } static int fan_write_cmd_watchdog(const char *cmd, int *rc) { int interval; if (sscanf(cmd, "watchdog %d", &interval) != 1) return 0; if (interval < 0 || interval > 120) *rc = -EINVAL; else { fan_watchdog_maxinterval = interval; tpacpi_disclose_usertask("procfs fan", "set watchdog timer to %d\n", interval); } return 1; } static int fan_write(char *buf) { char *cmd; int rc = 0; while (!rc && (cmd = strsep(&buf, ","))) { if (!((fan_control_commands & TPACPI_FAN_CMD_LEVEL) && fan_write_cmd_level(cmd, &rc)) && !((fan_control_commands & TPACPI_FAN_CMD_ENABLE) && (fan_write_cmd_enable(cmd, &rc) || fan_write_cmd_disable(cmd, &rc) || fan_write_cmd_watchdog(cmd, &rc))) && !((fan_control_commands & TPACPI_FAN_CMD_SPEED) && fan_write_cmd_speed(cmd, &rc)) ) rc = -EINVAL; else if (!rc) fan_watchdog_reset(); } return rc; } static struct ibm_struct fan_driver_data = { .name = "fan", .read = fan_read, .write = fan_write, .exit = fan_exit, .suspend = fan_suspend, .resume = fan_resume, }; /************************************************************************* * Mute LED subdriver */ #define TPACPI_LED_MAX 2 struct tp_led_table { acpi_string name; int on_value; int off_value; int state; }; static struct tp_led_table led_tables[TPACPI_LED_MAX] = { [LED_AUDIO_MUTE] = { .name = "SSMS", .on_value = 1, .off_value = 0, }, [LED_AUDIO_MICMUTE] = { .name = "MMTS", .on_value = 2, .off_value = 0, }, }; static int mute_led_on_off(struct tp_led_table *t, bool state) { acpi_handle temp; int output; if (ACPI_FAILURE(acpi_get_handle(hkey_handle, t->name, &temp))) { pr_warn("Thinkpad ACPI has no %s interface.\n", t->name); return -EIO; } if (!acpi_evalf(hkey_handle, &output, t->name, "dd", state ? t->on_value : t->off_value)) return -EIO; t->state = state; return state; } static int tpacpi_led_set(int whichled, bool on) { struct tp_led_table *t; t = &led_tables[whichled]; if (t->state < 0 || t->state == on) return t->state; return mute_led_on_off(t, on); } static int tpacpi_led_mute_set(struct led_classdev *led_cdev, enum led_brightness brightness) { return tpacpi_led_set(LED_AUDIO_MUTE, brightness != LED_OFF); } static int tpacpi_led_micmute_set(struct led_classdev *led_cdev, enum led_brightness brightness) { return tpacpi_led_set(LED_AUDIO_MICMUTE, brightness != LED_OFF); } static struct led_classdev mute_led_cdev[TPACPI_LED_MAX] = { [LED_AUDIO_MUTE] = { .name = "platform::mute", .max_brightness = 1, .brightness_set_blocking = tpacpi_led_mute_set, .default_trigger = "audio-mute", }, [LED_AUDIO_MICMUTE] = { .name = "platform::micmute", .max_brightness = 1, .brightness_set_blocking = tpacpi_led_micmute_set, .default_trigger = "audio-micmute", }, }; static int mute_led_init(struct ibm_init_struct *iibm) { acpi_handle temp; int i, err; for (i = 0; i < TPACPI_LED_MAX; i++) { struct tp_led_table *t = &led_tables[i]; if (ACPI_FAILURE(acpi_get_handle(hkey_handle, t->name, &temp))) { t->state = -ENODEV; continue; } mute_led_cdev[i].brightness = ledtrig_audio_get(i); err = led_classdev_register(&tpacpi_pdev->dev, &mute_led_cdev[i]); if (err < 0) { while (i--) led_classdev_unregister(&mute_led_cdev[i]); return err; } } return 0; } static void mute_led_exit(void) { int i; for (i = 0; i < TPACPI_LED_MAX; i++) { led_classdev_unregister(&mute_led_cdev[i]); tpacpi_led_set(i, false); } } static void mute_led_resume(void) { int i; for (i = 0; i < TPACPI_LED_MAX; i++) { struct tp_led_table *t = &led_tables[i]; if (t->state >= 0) mute_led_on_off(t, t->state); } } static struct ibm_struct mute_led_driver_data = { .name = "mute_led", .exit = mute_led_exit, .resume = mute_led_resume, }; /* * Battery Wear Control Driver * Contact: Ognjen Galic <smclt30p@gmail.com> */ /* Metadata */ #define GET_START "BCTG" #define SET_START "BCCS" #define GET_STOP "BCSG" #define SET_STOP "BCSS" #define GET_DISCHARGE "BDSG" #define SET_DISCHARGE "BDSS" #define GET_INHIBIT "BICG" #define SET_INHIBIT "BICS" enum { BAT_ANY = 0, BAT_PRIMARY = 1, BAT_SECONDARY = 2 }; enum { /* Error condition bit */ METHOD_ERR = BIT(31), }; enum { /* This is used in the get/set helpers */ THRESHOLD_START, THRESHOLD_STOP, FORCE_DISCHARGE, INHIBIT_CHARGE, }; struct tpacpi_battery_data { int charge_start; int start_support; int charge_stop; int stop_support; unsigned int charge_behaviours; }; struct tpacpi_battery_driver_data { struct tpacpi_battery_data batteries[3]; int individual_addressing; }; static struct tpacpi_battery_driver_data battery_info; /* ACPI helpers/functions/probes */ /** * This evaluates a ACPI method call specific to the battery * ACPI extension. The specifics are that an error is marked * in the 32rd bit of the response, so we just check that here. */ static acpi_status tpacpi_battery_acpi_eval(char *method, int *ret, int param) { int response; if (!acpi_evalf(hkey_handle, &response, method, "dd", param)) { acpi_handle_err(hkey_handle, "%s: evaluate failed", method); return AE_ERROR; } if (response & METHOD_ERR) { acpi_handle_err(hkey_handle, "%s evaluated but flagged as error", method); return AE_ERROR; } *ret = response; return AE_OK; } static int tpacpi_battery_get(int what, int battery, int *ret) { switch (what) { case THRESHOLD_START: if ACPI_FAILURE(tpacpi_battery_acpi_eval(GET_START, ret, battery)) return -ENODEV; /* The value is in the low 8 bits of the response */ *ret = *ret & 0xFF; return 0; case THRESHOLD_STOP: if ACPI_FAILURE(tpacpi_battery_acpi_eval(GET_STOP, ret, battery)) return -ENODEV; /* Value is in lower 8 bits */ *ret = *ret & 0xFF; /* * On the stop value, if we return 0 that * does not make any sense. 0 means Default, which * means that charging stops at 100%, so we return * that. */ if (*ret == 0) *ret = 100; return 0; case FORCE_DISCHARGE: if ACPI_FAILURE(tpacpi_battery_acpi_eval(GET_DISCHARGE, ret, battery)) return -ENODEV; /* The force discharge status is in bit 0 */ *ret = *ret & 0x01; return 0; case INHIBIT_CHARGE: if ACPI_FAILURE(tpacpi_battery_acpi_eval(GET_INHIBIT, ret, battery)) return -ENODEV; /* The inhibit charge status is in bit 0 */ *ret = *ret & 0x01; return 0; default: pr_crit("wrong parameter: %d", what); return -EINVAL; } } static int tpacpi_battery_set(int what, int battery, int value) { int param, ret; /* The first 8 bits are the value of the threshold */ param = value; /* The battery ID is in bits 8-9, 2 bits */ param |= battery << 8; switch (what) { case THRESHOLD_START: if ACPI_FAILURE(tpacpi_battery_acpi_eval(SET_START, &ret, param)) { pr_err("failed to set charge threshold on battery %d", battery); return -ENODEV; } return 0; case THRESHOLD_STOP: if ACPI_FAILURE(tpacpi_battery_acpi_eval(SET_STOP, &ret, param)) { pr_err("failed to set stop threshold: %d", battery); return -ENODEV; } return 0; case FORCE_DISCHARGE: /* Force discharge is in bit 0, * break on AC attach is in bit 1 (won't work on some ThinkPads), * battery ID is in bits 8-9, 2 bits. */ if (ACPI_FAILURE(tpacpi_battery_acpi_eval(SET_DISCHARGE, &ret, param))) { pr_err("failed to set force discharge on %d", battery); return -ENODEV; } return 0; case INHIBIT_CHARGE: /* When setting inhibit charge, we set a default value of * always breaking on AC detach and the effective time is set to * be permanent. * The battery ID is in bits 4-5, 2 bits, * the effective time is in bits 8-23, 2 bytes. * A time of FFFF indicates forever. */ param = value; param |= battery << 4; param |= 0xFFFF << 8; if (ACPI_FAILURE(tpacpi_battery_acpi_eval(SET_INHIBIT, &ret, param))) { pr_err("failed to set inhibit charge on %d", battery); return -ENODEV; } return 0; default: pr_crit("wrong parameter: %d", what); return -EINVAL; } } static int tpacpi_battery_set_validate(int what, int battery, int value) { int ret, v; ret = tpacpi_battery_set(what, battery, value); if (ret < 0) return ret; ret = tpacpi_battery_get(what, battery, &v); if (ret < 0) return ret; if (v == value) return 0; msleep(500); ret = tpacpi_battery_get(what, battery, &v); if (ret < 0) return ret; if (v == value) return 0; return -EIO; } static int tpacpi_battery_probe(int battery) { int ret = 0; memset(&battery_info.batteries[battery], 0, sizeof(battery_info.batteries[battery])); /* * 1) Get the current start threshold * 2) Check for support * 3) Get the current stop threshold * 4) Check for support * 5) Get the current force discharge status * 6) Check for support * 7) Get the current inhibit charge status * 8) Check for support */ if (acpi_has_method(hkey_handle, GET_START)) { if ACPI_FAILURE(tpacpi_battery_acpi_eval(GET_START, &ret, battery)) { pr_err("Error probing battery %d\n", battery); return -ENODEV; } /* Individual addressing is in bit 9 */ if (ret & BIT(9)) battery_info.individual_addressing = true; /* Support is marked in bit 8 */ if (ret & BIT(8)) battery_info.batteries[battery].start_support = 1; else return -ENODEV; if (tpacpi_battery_get(THRESHOLD_START, battery, &battery_info.batteries[battery].charge_start)) { pr_err("Error probing battery %d\n", battery); return -ENODEV; } } if (acpi_has_method(hkey_handle, GET_STOP)) { if ACPI_FAILURE(tpacpi_battery_acpi_eval(GET_STOP, &ret, battery)) { pr_err("Error probing battery stop; %d\n", battery); return -ENODEV; } /* Support is marked in bit 8 */ if (ret & BIT(8)) battery_info.batteries[battery].stop_support = 1; else return -ENODEV; if (tpacpi_battery_get(THRESHOLD_STOP, battery, &battery_info.batteries[battery].charge_stop)) { pr_err("Error probing battery stop: %d\n", battery); return -ENODEV; } } if (acpi_has_method(hkey_handle, GET_DISCHARGE)) { if (ACPI_FAILURE(tpacpi_battery_acpi_eval(GET_DISCHARGE, &ret, battery))) { pr_err("Error probing battery discharge; %d\n", battery); return -ENODEV; } /* Support is marked in bit 8 */ if (ret & BIT(8)) battery_info.batteries[battery].charge_behaviours |= BIT(POWER_SUPPLY_CHARGE_BEHAVIOUR_FORCE_DISCHARGE); } if (acpi_has_method(hkey_handle, GET_INHIBIT)) { if (ACPI_FAILURE(tpacpi_battery_acpi_eval(GET_INHIBIT, &ret, battery))) { pr_err("Error probing battery inhibit charge; %d\n", battery); return -ENODEV; } /* Support is marked in bit 5 */ if (ret & BIT(5)) battery_info.batteries[battery].charge_behaviours |= BIT(POWER_SUPPLY_CHARGE_BEHAVIOUR_INHIBIT_CHARGE); } battery_info.batteries[battery].charge_behaviours |= BIT(POWER_SUPPLY_CHARGE_BEHAVIOUR_AUTO); pr_info("battery %d registered (start %d, stop %d, behaviours: 0x%x)\n", battery, battery_info.batteries[battery].charge_start, battery_info.batteries[battery].charge_stop, battery_info.batteries[battery].charge_behaviours); return 0; } /* General helper functions */ static int tpacpi_battery_get_id(const char *battery_name) { if (strcmp(battery_name, "BAT0") == 0 || tp_features.battery_force_primary) return BAT_PRIMARY; if (strcmp(battery_name, "BAT1") == 0) return BAT_SECONDARY; /* * If for some reason the battery is not BAT0 nor is it * BAT1, we will assume it's the default, first battery, * AKA primary. */ pr_warn("unknown battery %s, assuming primary", battery_name); return BAT_PRIMARY; } /* sysfs interface */ static ssize_t tpacpi_battery_store(int what, struct device *dev, const char *buf, size_t count) { struct power_supply *supply = to_power_supply(dev); unsigned long value; int battery, rval; /* * Some systems have support for more than * one battery. If that is the case, * tpacpi_battery_probe marked that addressing * them individually is supported, so we do that * based on the device struct. * * On systems that are not supported, we assume * the primary as most of the ACPI calls fail * with "Any Battery" as the parameter. */ if (battery_info.individual_addressing) /* BAT_PRIMARY or BAT_SECONDARY */ battery = tpacpi_battery_get_id(supply->desc->name); else battery = BAT_PRIMARY; rval = kstrtoul(buf, 10, &value); if (rval) return rval; switch (what) { case THRESHOLD_START: if (!battery_info.batteries[battery].start_support) return -ENODEV; /* valid values are [0, 99] */ if (value > 99) return -EINVAL; if (value > battery_info.batteries[battery].charge_stop) return -EINVAL; if (tpacpi_battery_set(THRESHOLD_START, battery, value)) return -ENODEV; battery_info.batteries[battery].charge_start = value; return count; case THRESHOLD_STOP: if (!battery_info.batteries[battery].stop_support) return -ENODEV; /* valid values are [1, 100] */ if (value < 1 || value > 100) return -EINVAL; if (value < battery_info.batteries[battery].charge_start) return -EINVAL; battery_info.batteries[battery].charge_stop = value; /* * When 100 is passed to stop, we need to flip * it to 0 as that the EC understands that as * "Default", which will charge to 100% */ if (value == 100) value = 0; if (tpacpi_battery_set(THRESHOLD_STOP, battery, value)) return -EINVAL; return count; default: pr_crit("Wrong parameter: %d", what); return -EINVAL; } return count; } static ssize_t tpacpi_battery_show(int what, struct device *dev, char *buf) { struct power_supply *supply = to_power_supply(dev); int ret, battery; /* * Some systems have support for more than * one battery. If that is the case, * tpacpi_battery_probe marked that addressing * them individually is supported, so we; * based on the device struct. * * On systems that are not supported, we assume * the primary as most of the ACPI calls fail * with "Any Battery" as the parameter. */ if (battery_info.individual_addressing) /* BAT_PRIMARY or BAT_SECONDARY */ battery = tpacpi_battery_get_id(supply->desc->name); else battery = BAT_PRIMARY; if (tpacpi_battery_get(what, battery, &ret)) return -ENODEV; return sprintf(buf, "%d\n", ret); } static ssize_t charge_control_start_threshold_show(struct device *device, struct device_attribute *attr, char *buf) { return tpacpi_battery_show(THRESHOLD_START, device, buf); } static ssize_t charge_control_end_threshold_show(struct device *device, struct device_attribute *attr, char *buf) { return tpacpi_battery_show(THRESHOLD_STOP, device, buf); } static ssize_t charge_behaviour_show(struct device *dev, struct device_attribute *attr, char *buf) { enum power_supply_charge_behaviour active = POWER_SUPPLY_CHARGE_BEHAVIOUR_AUTO; struct power_supply *supply = to_power_supply(dev); unsigned int available; int ret, battery; battery = tpacpi_battery_get_id(supply->desc->name); available = battery_info.batteries[battery].charge_behaviours; if (available & BIT(POWER_SUPPLY_CHARGE_BEHAVIOUR_FORCE_DISCHARGE)) { if (tpacpi_battery_get(FORCE_DISCHARGE, battery, &ret)) return -ENODEV; if (ret) { active = POWER_SUPPLY_CHARGE_BEHAVIOUR_FORCE_DISCHARGE; goto out; } } if (available & BIT(POWER_SUPPLY_CHARGE_BEHAVIOUR_INHIBIT_CHARGE)) { if (tpacpi_battery_get(INHIBIT_CHARGE, battery, &ret)) return -ENODEV; if (ret) { active = POWER_SUPPLY_CHARGE_BEHAVIOUR_INHIBIT_CHARGE; goto out; } } out: return power_supply_charge_behaviour_show(dev, available, active, buf); } static ssize_t charge_control_start_threshold_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { return tpacpi_battery_store(THRESHOLD_START, dev, buf, count); } static ssize_t charge_control_end_threshold_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { return tpacpi_battery_store(THRESHOLD_STOP, dev, buf, count); } static ssize_t charge_behaviour_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { struct power_supply *supply = to_power_supply(dev); int selected, battery, ret = 0; unsigned int available; battery = tpacpi_battery_get_id(supply->desc->name); available = battery_info.batteries[battery].charge_behaviours; selected = power_supply_charge_behaviour_parse(available, buf); if (selected < 0) return selected; switch (selected) { case POWER_SUPPLY_CHARGE_BEHAVIOUR_AUTO: if (available & BIT(POWER_SUPPLY_CHARGE_BEHAVIOUR_FORCE_DISCHARGE)) ret = tpacpi_battery_set_validate(FORCE_DISCHARGE, battery, 0); if (available & BIT(POWER_SUPPLY_CHARGE_BEHAVIOUR_INHIBIT_CHARGE)) ret = min(ret, tpacpi_battery_set_validate(INHIBIT_CHARGE, battery, 0)); if (ret < 0) return ret; break; case POWER_SUPPLY_CHARGE_BEHAVIOUR_FORCE_DISCHARGE: if (available & BIT(POWER_SUPPLY_CHARGE_BEHAVIOUR_INHIBIT_CHARGE)) ret = tpacpi_battery_set_validate(INHIBIT_CHARGE, battery, 0); ret = min(ret, tpacpi_battery_set_validate(FORCE_DISCHARGE, battery, 1)); if (ret < 0) return ret; break; case POWER_SUPPLY_CHARGE_BEHAVIOUR_INHIBIT_CHARGE: if (available & BIT(POWER_SUPPLY_CHARGE_BEHAVIOUR_FORCE_DISCHARGE)) ret = tpacpi_battery_set_validate(FORCE_DISCHARGE, battery, 0); ret = min(ret, tpacpi_battery_set_validate(INHIBIT_CHARGE, battery, 1)); if (ret < 0) return ret; break; default: dev_err(dev, "Unexpected charge behaviour: %d\n", selected); return -EINVAL; } return count; } static DEVICE_ATTR_RW(charge_control_start_threshold); static DEVICE_ATTR_RW(charge_control_end_threshold); static DEVICE_ATTR_RW(charge_behaviour); static struct device_attribute dev_attr_charge_start_threshold = __ATTR( charge_start_threshold, 0644, charge_control_start_threshold_show, charge_control_start_threshold_store ); static struct device_attribute dev_attr_charge_stop_threshold = __ATTR( charge_stop_threshold, 0644, charge_control_end_threshold_show, charge_control_end_threshold_store ); static struct attribute *tpacpi_battery_attrs[] = { &dev_attr_charge_control_start_threshold.attr, &dev_attr_charge_control_end_threshold.attr, &dev_attr_charge_start_threshold.attr, &dev_attr_charge_stop_threshold.attr, &dev_attr_charge_behaviour.attr, NULL, }; ATTRIBUTE_GROUPS(tpacpi_battery); /* ACPI battery hooking */ static int tpacpi_battery_add(struct power_supply *battery, struct acpi_battery_hook *hook) { int batteryid = tpacpi_battery_get_id(battery->desc->name); if (tpacpi_battery_probe(batteryid)) return -ENODEV; if (device_add_groups(&battery->dev, tpacpi_battery_groups)) return -ENODEV; return 0; } static int tpacpi_battery_remove(struct power_supply *battery, struct acpi_battery_hook *hook) { device_remove_groups(&battery->dev, tpacpi_battery_groups); return 0; } static struct acpi_battery_hook battery_hook = { .add_battery = tpacpi_battery_add, .remove_battery = tpacpi_battery_remove, .name = "ThinkPad Battery Extension", }; /* Subdriver init/exit */ static const struct tpacpi_quirk battery_quirk_table[] __initconst = { /* * Individual addressing is broken on models that expose the * primary battery as BAT1. */ TPACPI_Q_LNV('J', '7', true), /* B5400 */ TPACPI_Q_LNV('J', 'I', true), /* Thinkpad 11e */ TPACPI_Q_LNV3('R', '0', 'B', true), /* Thinkpad 11e gen 3 */ TPACPI_Q_LNV3('R', '0', 'C', true), /* Thinkpad 13 */ TPACPI_Q_LNV3('R', '0', 'J', true), /* Thinkpad 13 gen 2 */ TPACPI_Q_LNV3('R', '0', 'K', true), /* Thinkpad 11e gen 4 celeron BIOS */ }; static int __init tpacpi_battery_init(struct ibm_init_struct *ibm) { memset(&battery_info, 0, sizeof(battery_info)); tp_features.battery_force_primary = tpacpi_check_quirks( battery_quirk_table, ARRAY_SIZE(battery_quirk_table)); battery_hook_register(&battery_hook); return 0; } static void tpacpi_battery_exit(void) { battery_hook_unregister(&battery_hook); } static struct ibm_struct battery_driver_data = { .name = "battery", .exit = tpacpi_battery_exit, }; /************************************************************************* * LCD Shadow subdriver, for the Lenovo PrivacyGuard feature */ static struct drm_privacy_screen *lcdshadow_dev; static acpi_handle lcdshadow_get_handle; static acpi_handle lcdshadow_set_handle; static int lcdshadow_set_sw_state(struct drm_privacy_screen *priv, enum drm_privacy_screen_status state) { int output; if (WARN_ON(!mutex_is_locked(&priv->lock))) return -EIO; if (!acpi_evalf(lcdshadow_set_handle, &output, NULL, "dd", (int)state)) return -EIO; priv->hw_state = priv->sw_state = state; return 0; } static void lcdshadow_get_hw_state(struct drm_privacy_screen *priv) { int output; if (!acpi_evalf(lcdshadow_get_handle, &output, NULL, "dd", 0)) return; priv->hw_state = priv->sw_state = output & 0x1; } static const struct drm_privacy_screen_ops lcdshadow_ops = { .set_sw_state = lcdshadow_set_sw_state, .get_hw_state = lcdshadow_get_hw_state, }; static int tpacpi_lcdshadow_init(struct ibm_init_struct *iibm) { acpi_status status1, status2; int output; status1 = acpi_get_handle(hkey_handle, "GSSS", &lcdshadow_get_handle); status2 = acpi_get_handle(hkey_handle, "SSSS", &lcdshadow_set_handle); if (ACPI_FAILURE(status1) || ACPI_FAILURE(status2)) return 0; if (!acpi_evalf(lcdshadow_get_handle, &output, NULL, "dd", 0)) return -EIO; if (!(output & 0x10000)) return 0; lcdshadow_dev = drm_privacy_screen_register(&tpacpi_pdev->dev, &lcdshadow_ops, NULL); if (IS_ERR(lcdshadow_dev)) return PTR_ERR(lcdshadow_dev); return 0; } static void lcdshadow_exit(void) { drm_privacy_screen_unregister(lcdshadow_dev); } static void lcdshadow_resume(void) { if (!lcdshadow_dev) return; mutex_lock(&lcdshadow_dev->lock); lcdshadow_set_sw_state(lcdshadow_dev, lcdshadow_dev->sw_state); mutex_unlock(&lcdshadow_dev->lock); } static int lcdshadow_read(struct seq_file *m) { if (!lcdshadow_dev) { seq_puts(m, "status:\t\tnot supported\n"); } else { seq_printf(m, "status:\t\t%d\n", lcdshadow_dev->hw_state); seq_puts(m, "commands:\t0, 1\n"); } return 0; } static int lcdshadow_write(char *buf) { char *cmd; int res, state = -EINVAL; if (!lcdshadow_dev) return -ENODEV; while ((cmd = strsep(&buf, ","))) { res = kstrtoint(cmd, 10, &state); if (res < 0) return res; } if (state >= 2 || state < 0) return -EINVAL; mutex_lock(&lcdshadow_dev->lock); res = lcdshadow_set_sw_state(lcdshadow_dev, state); mutex_unlock(&lcdshadow_dev->lock); drm_privacy_screen_call_notifier_chain(lcdshadow_dev); return res; } static struct ibm_struct lcdshadow_driver_data = { .name = "lcdshadow", .exit = lcdshadow_exit, .resume = lcdshadow_resume, .read = lcdshadow_read, .write = lcdshadow_write, }; /************************************************************************* * Thinkpad sensor interfaces */ #define DYTC_CMD_QUERY 0 /* To get DYTC status - enable/revision */ #define DYTC_QUERY_ENABLE_BIT 8 /* Bit 8 - 0 = disabled, 1 = enabled */ #define DYTC_QUERY_SUBREV_BIT 16 /* Bits 16 - 27 - sub revision */ #define DYTC_QUERY_REV_BIT 28 /* Bits 28 - 31 - revision */ #define DYTC_CMD_GET 2 /* To get current IC function and mode */ #define DYTC_GET_LAPMODE_BIT 17 /* Set when in lapmode */ #define PALMSENSOR_PRESENT_BIT 0 /* Determine if psensor present */ #define PALMSENSOR_ON_BIT 1 /* psensor status */ static bool has_palmsensor; static bool has_lapsensor; static bool palm_state; static bool lap_state; static int dytc_version; static int dytc_command(int command, int *output) { acpi_handle dytc_handle; if (ACPI_FAILURE(acpi_get_handle(hkey_handle, "DYTC", &dytc_handle))) { /* Platform doesn't support DYTC */ return -ENODEV; } if (!acpi_evalf(dytc_handle, output, NULL, "dd", command)) return -EIO; return 0; } static int lapsensor_get(bool *present, bool *state) { int output, err; *present = false; err = dytc_command(DYTC_CMD_GET, &output); if (err) return err; *present = true; /*If we get his far, we have lapmode support*/ *state = output & BIT(DYTC_GET_LAPMODE_BIT) ? true : false; return 0; } static int palmsensor_get(bool *present, bool *state) { acpi_handle psensor_handle; int output; *present = false; if (ACPI_FAILURE(acpi_get_handle(hkey_handle, "GPSS", &psensor_handle))) return -ENODEV; if (!acpi_evalf(psensor_handle, &output, NULL, "d")) return -EIO; *present = output & BIT(PALMSENSOR_PRESENT_BIT) ? true : false; *state = output & BIT(PALMSENSOR_ON_BIT) ? true : false; return 0; } static void lapsensor_refresh(void) { bool state; int err; if (has_lapsensor) { err = lapsensor_get(&has_lapsensor, &state); if (err) return; if (lap_state != state) { lap_state = state; sysfs_notify(&tpacpi_pdev->dev.kobj, NULL, "dytc_lapmode"); } } } static void palmsensor_refresh(void) { bool state; int err; if (has_palmsensor) { err = palmsensor_get(&has_palmsensor, &state); if (err) return; if (palm_state != state) { palm_state = state; sysfs_notify(&tpacpi_pdev->dev.kobj, NULL, "palmsensor"); } } } static ssize_t dytc_lapmode_show(struct device *dev, struct device_attribute *attr, char *buf) { if (has_lapsensor) return sysfs_emit(buf, "%d\n", lap_state); return sysfs_emit(buf, "\n"); } static DEVICE_ATTR_RO(dytc_lapmode); static ssize_t palmsensor_show(struct device *dev, struct device_attribute *attr, char *buf) { if (has_palmsensor) return sysfs_emit(buf, "%d\n", palm_state); return sysfs_emit(buf, "\n"); } static DEVICE_ATTR_RO(palmsensor); static struct attribute *proxsensor_attributes[] = { &dev_attr_dytc_lapmode.attr, &dev_attr_palmsensor.attr, NULL }; static umode_t proxsensor_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { if (attr == &dev_attr_dytc_lapmode.attr) { /* * Platforms before DYTC version 5 claim to have a lap sensor, * but it doesn't work, so we ignore them. */ if (!has_lapsensor || dytc_version < 5) return 0; } else if (attr == &dev_attr_palmsensor.attr) { if (!has_palmsensor) return 0; } return attr->mode; } static const struct attribute_group proxsensor_attr_group = { .is_visible = proxsensor_attr_is_visible, .attrs = proxsensor_attributes, }; static int tpacpi_proxsensor_init(struct ibm_init_struct *iibm) { int palm_err, lap_err; palm_err = palmsensor_get(&has_palmsensor, &palm_state); lap_err = lapsensor_get(&has_lapsensor, &lap_state); /* If support isn't available for both devices return -ENODEV */ if ((palm_err == -ENODEV) && (lap_err == -ENODEV)) return -ENODEV; /* Otherwise, if there was an error return it */ if (palm_err && (palm_err != -ENODEV)) return palm_err; if (lap_err && (lap_err != -ENODEV)) return lap_err; return 0; } static struct ibm_struct proxsensor_driver_data = { .name = "proximity-sensor", }; /************************************************************************* * DYTC Platform Profile interface */ #define DYTC_CMD_SET 1 /* To enable/disable IC function mode */ #define DYTC_CMD_MMC_GET 8 /* To get current MMC function and mode */ #define DYTC_CMD_RESET 0x1ff /* To reset back to default */ #define DYTC_CMD_FUNC_CAP 3 /* To get DYTC capabilities */ #define DYTC_FC_MMC 27 /* MMC Mode supported */ #define DYTC_FC_PSC 29 /* PSC Mode supported */ #define DYTC_FC_AMT 31 /* AMT mode supported */ #define DYTC_GET_FUNCTION_BIT 8 /* Bits 8-11 - function setting */ #define DYTC_GET_MODE_BIT 12 /* Bits 12-15 - mode setting */ #define DYTC_SET_FUNCTION_BIT 12 /* Bits 12-15 - function setting */ #define DYTC_SET_MODE_BIT 16 /* Bits 16-19 - mode setting */ #define DYTC_SET_VALID_BIT 20 /* Bit 20 - 1 = on, 0 = off */ #define DYTC_FUNCTION_STD 0 /* Function = 0, standard mode */ #define DYTC_FUNCTION_CQL 1 /* Function = 1, lap mode */ #define DYTC_FUNCTION_MMC 11 /* Function = 11, MMC mode */ #define DYTC_FUNCTION_PSC 13 /* Function = 13, PSC mode */ #define DYTC_FUNCTION_AMT 15 /* Function = 15, AMT mode */ #define DYTC_MODE_AMT_ENABLE 0x1 /* Enable AMT (in balanced mode) */ #define DYTC_MODE_AMT_DISABLE 0xF /* Disable AMT (in other modes) */ #define DYTC_MODE_MMC_PERFORM 2 /* High power mode aka performance */ #define DYTC_MODE_MMC_LOWPOWER 3 /* Low power mode */ #define DYTC_MODE_MMC_BALANCE 0xF /* Default mode aka balanced */ #define DYTC_MODE_MMC_DEFAULT 0 /* Default mode from MMC_GET, aka balanced */ #define DYTC_MODE_PSC_LOWPOWER 3 /* Low power mode */ #define DYTC_MODE_PSC_BALANCE 5 /* Default mode aka balanced */ #define DYTC_MODE_PSC_PERFORM 7 /* High power mode aka performance */ #define DYTC_ERR_MASK 0xF /* Bits 0-3 in cmd result are the error result */ #define DYTC_ERR_SUCCESS 1 /* CMD completed successful */ #define DYTC_SET_COMMAND(function, mode, on) \ (DYTC_CMD_SET | (function) << DYTC_SET_FUNCTION_BIT | \ (mode) << DYTC_SET_MODE_BIT | \ (on) << DYTC_SET_VALID_BIT) #define DYTC_DISABLE_CQL DYTC_SET_COMMAND(DYTC_FUNCTION_CQL, DYTC_MODE_MMC_BALANCE, 0) #define DYTC_ENABLE_CQL DYTC_SET_COMMAND(DYTC_FUNCTION_CQL, DYTC_MODE_MMC_BALANCE, 1) static int dytc_control_amt(bool enable); static bool dytc_amt_active; static enum platform_profile_option dytc_current_profile; static atomic_t dytc_ignore_event = ATOMIC_INIT(0); static DEFINE_MUTEX(dytc_mutex); static int dytc_capabilities; static bool dytc_mmc_get_available; static int profile_force; static int convert_dytc_to_profile(int funcmode, int dytcmode, enum platform_profile_option *profile) { switch (funcmode) { case DYTC_FUNCTION_MMC: switch (dytcmode) { case DYTC_MODE_MMC_LOWPOWER: *profile = PLATFORM_PROFILE_LOW_POWER; break; case DYTC_MODE_MMC_DEFAULT: case DYTC_MODE_MMC_BALANCE: *profile = PLATFORM_PROFILE_BALANCED; break; case DYTC_MODE_MMC_PERFORM: *profile = PLATFORM_PROFILE_PERFORMANCE; break; default: /* Unknown mode */ return -EINVAL; } return 0; case DYTC_FUNCTION_PSC: switch (dytcmode) { case DYTC_MODE_PSC_LOWPOWER: *profile = PLATFORM_PROFILE_LOW_POWER; break; case DYTC_MODE_PSC_BALANCE: *profile = PLATFORM_PROFILE_BALANCED; break; case DYTC_MODE_PSC_PERFORM: *profile = PLATFORM_PROFILE_PERFORMANCE; break; default: /* Unknown mode */ return -EINVAL; } return 0; case DYTC_FUNCTION_AMT: /* For now return balanced. It's the closest we have to 'auto' */ *profile = PLATFORM_PROFILE_BALANCED; return 0; default: /* Unknown function */ return -EOPNOTSUPP; } return 0; } static int convert_profile_to_dytc(enum platform_profile_option profile, int *perfmode) { switch (profile) { case PLATFORM_PROFILE_LOW_POWER: if (dytc_capabilities & BIT(DYTC_FC_MMC)) *perfmode = DYTC_MODE_MMC_LOWPOWER; else if (dytc_capabilities & BIT(DYTC_FC_PSC)) *perfmode = DYTC_MODE_PSC_LOWPOWER; break; case PLATFORM_PROFILE_BALANCED: if (dytc_capabilities & BIT(DYTC_FC_MMC)) *perfmode = DYTC_MODE_MMC_BALANCE; else if (dytc_capabilities & BIT(DYTC_FC_PSC)) *perfmode = DYTC_MODE_PSC_BALANCE; break; case PLATFORM_PROFILE_PERFORMANCE: if (dytc_capabilities & BIT(DYTC_FC_MMC)) *perfmode = DYTC_MODE_MMC_PERFORM; else if (dytc_capabilities & BIT(DYTC_FC_PSC)) *perfmode = DYTC_MODE_PSC_PERFORM; break; default: /* Unknown profile */ return -EOPNOTSUPP; } return 0; } /* * dytc_profile_get: Function to register with platform_profile * handler. Returns current platform profile. */ static int dytc_profile_get(struct platform_profile_handler *pprof, enum platform_profile_option *profile) { *profile = dytc_current_profile; return 0; } static int dytc_control_amt(bool enable) { int dummy; int err; int cmd; if (!(dytc_capabilities & BIT(DYTC_FC_AMT))) { pr_warn("Attempting to toggle AMT on a system that doesn't advertise support\n"); return -ENODEV; } if (enable) cmd = DYTC_SET_COMMAND(DYTC_FUNCTION_AMT, DYTC_MODE_AMT_ENABLE, enable); else cmd = DYTC_SET_COMMAND(DYTC_FUNCTION_AMT, DYTC_MODE_AMT_DISABLE, enable); pr_debug("%sabling AMT (cmd 0x%x)", enable ? "en":"dis", cmd); err = dytc_command(cmd, &dummy); if (err) return err; dytc_amt_active = enable; return 0; } /* * Helper function - check if we are in CQL mode and if we are * - disable CQL, * - run the command * - enable CQL * If not in CQL mode, just run the command */ static int dytc_cql_command(int command, int *output) { int err, cmd_err, dummy; int cur_funcmode; /* Determine if we are in CQL mode. This alters the commands we do */ err = dytc_command(DYTC_CMD_GET, output); if (err) return err; cur_funcmode = (*output >> DYTC_GET_FUNCTION_BIT) & 0xF; /* Check if we're OK to return immediately */ if ((command == DYTC_CMD_GET) && (cur_funcmode != DYTC_FUNCTION_CQL)) return 0; if (cur_funcmode == DYTC_FUNCTION_CQL) { atomic_inc(&dytc_ignore_event); err = dytc_command(DYTC_DISABLE_CQL, &dummy); if (err) return err; } cmd_err = dytc_command(command, output); /* Check return condition after we've restored CQL state */ if (cur_funcmode == DYTC_FUNCTION_CQL) { err = dytc_command(DYTC_ENABLE_CQL, &dummy); if (err) return err; } return cmd_err; } /* * dytc_profile_set: Function to register with platform_profile * handler. Sets current platform profile. */ static int dytc_profile_set(struct platform_profile_handler *pprof, enum platform_profile_option profile) { int perfmode; int output; int err; err = mutex_lock_interruptible(&dytc_mutex); if (err) return err; err = convert_profile_to_dytc(profile, &perfmode); if (err) goto unlock; if (dytc_capabilities & BIT(DYTC_FC_MMC)) { if (profile == PLATFORM_PROFILE_BALANCED) { /* * To get back to balanced mode we need to issue a reset command. * Note we still need to disable CQL mode before hand and re-enable * it afterwards, otherwise dytc_lapmode gets reset to 0 and stays * stuck at 0 for aprox. 30 minutes. */ err = dytc_cql_command(DYTC_CMD_RESET, &output); if (err) goto unlock; } else { /* Determine if we are in CQL mode. This alters the commands we do */ err = dytc_cql_command(DYTC_SET_COMMAND(DYTC_FUNCTION_MMC, perfmode, 1), &output); if (err) goto unlock; } } else if (dytc_capabilities & BIT(DYTC_FC_PSC)) { err = dytc_command(DYTC_SET_COMMAND(DYTC_FUNCTION_PSC, perfmode, 1), &output); if (err) goto unlock; /* system supports AMT, activate it when on balanced */ if (dytc_capabilities & BIT(DYTC_FC_AMT)) dytc_control_amt(profile == PLATFORM_PROFILE_BALANCED); } /* Success - update current profile */ dytc_current_profile = profile; unlock: mutex_unlock(&dytc_mutex); return err; } static void dytc_profile_refresh(void) { enum platform_profile_option profile; int output = 0, err = 0; int perfmode, funcmode = 0; mutex_lock(&dytc_mutex); if (dytc_capabilities & BIT(DYTC_FC_MMC)) { if (dytc_mmc_get_available) err = dytc_command(DYTC_CMD_MMC_GET, &output); else err = dytc_cql_command(DYTC_CMD_GET, &output); funcmode = DYTC_FUNCTION_MMC; } else if (dytc_capabilities & BIT(DYTC_FC_PSC)) { err = dytc_command(DYTC_CMD_GET, &output); /* Check if we are PSC mode, or have AMT enabled */ funcmode = (output >> DYTC_GET_FUNCTION_BIT) & 0xF; } else { /* Unknown profile mode */ err = -ENODEV; } mutex_unlock(&dytc_mutex); if (err) return; perfmode = (output >> DYTC_GET_MODE_BIT) & 0xF; convert_dytc_to_profile(funcmode, perfmode, &profile); if (profile != dytc_current_profile) { dytc_current_profile = profile; platform_profile_notify(); } } static struct platform_profile_handler dytc_profile = { .profile_get = dytc_profile_get, .profile_set = dytc_profile_set, }; static int tpacpi_dytc_profile_init(struct ibm_init_struct *iibm) { int err, output; /* Setup supported modes */ set_bit(PLATFORM_PROFILE_LOW_POWER, dytc_profile.choices); set_bit(PLATFORM_PROFILE_BALANCED, dytc_profile.choices); set_bit(PLATFORM_PROFILE_PERFORMANCE, dytc_profile.choices); err = dytc_command(DYTC_CMD_QUERY, &output); if (err) return err; if (output & BIT(DYTC_QUERY_ENABLE_BIT)) dytc_version = (output >> DYTC_QUERY_REV_BIT) & 0xF; /* Check DYTC is enabled and supports mode setting */ if (dytc_version < 5) return -ENODEV; /* Check what capabilities are supported */ err = dytc_command(DYTC_CMD_FUNC_CAP, &dytc_capabilities); if (err) return err; /* Check if user wants to override the profile selection */ if (profile_force) { switch (profile_force) { case -1: dytc_capabilities = 0; break; case 1: dytc_capabilities = BIT(DYTC_FC_MMC); break; case 2: dytc_capabilities = BIT(DYTC_FC_PSC); break; } pr_debug("Profile selection forced: 0x%x\n", dytc_capabilities); } if (dytc_capabilities & BIT(DYTC_FC_MMC)) { /* MMC MODE */ pr_debug("MMC is supported\n"); /* * Check if MMC_GET functionality available * Version > 6 and return success from MMC_GET command */ dytc_mmc_get_available = false; if (dytc_version >= 6) { err = dytc_command(DYTC_CMD_MMC_GET, &output); if (!err && ((output & DYTC_ERR_MASK) == DYTC_ERR_SUCCESS)) dytc_mmc_get_available = true; } } else if (dytc_capabilities & BIT(DYTC_FC_PSC)) { /* PSC MODE */ pr_debug("PSC is supported\n"); } else { dbg_printk(TPACPI_DBG_INIT, "No DYTC support available\n"); return -ENODEV; } dbg_printk(TPACPI_DBG_INIT, "DYTC version %d: thermal mode available\n", dytc_version); /* Create platform_profile structure and register */ err = platform_profile_register(&dytc_profile); /* * If for some reason platform_profiles aren't enabled * don't quit terminally. */ if (err) return -ENODEV; /* Ensure initial values are correct */ dytc_profile_refresh(); /* Workaround for https://bugzilla.kernel.org/show_bug.cgi?id=216347 */ if (dytc_capabilities & BIT(DYTC_FC_PSC)) dytc_profile_set(NULL, PLATFORM_PROFILE_BALANCED); return 0; } static void dytc_profile_exit(void) { platform_profile_remove(); } static struct ibm_struct dytc_profile_driver_data = { .name = "dytc-profile", .exit = dytc_profile_exit, }; /************************************************************************* * Keyboard language interface */ struct keyboard_lang_data { const char *lang_str; int lang_code; }; static const struct keyboard_lang_data keyboard_lang_data[] = { {"be", 0x080c}, {"cz", 0x0405}, {"da", 0x0406}, {"de", 0x0c07}, {"en", 0x0000}, {"es", 0x2c0a}, {"et", 0x0425}, {"fr", 0x040c}, {"fr-ch", 0x100c}, {"hu", 0x040e}, {"it", 0x0410}, {"jp", 0x0411}, {"nl", 0x0413}, {"nn", 0x0414}, {"pl", 0x0415}, {"pt", 0x0816}, {"sl", 0x041b}, {"sv", 0x081d}, {"tr", 0x041f}, }; static int set_keyboard_lang_command(int command) { acpi_handle sskl_handle; int output; if (ACPI_FAILURE(acpi_get_handle(hkey_handle, "SSKL", &sskl_handle))) { /* Platform doesn't support SSKL */ return -ENODEV; } if (!acpi_evalf(sskl_handle, &output, NULL, "dd", command)) return -EIO; return 0; } static int get_keyboard_lang(int *output) { acpi_handle gskl_handle; int kbd_lang; if (ACPI_FAILURE(acpi_get_handle(hkey_handle, "GSKL", &gskl_handle))) { /* Platform doesn't support GSKL */ return -ENODEV; } if (!acpi_evalf(gskl_handle, &kbd_lang, NULL, "dd", 0x02000000)) return -EIO; /* * METHOD_ERR gets returned on devices where there are no special (e.g. '=', * '(' and ')') keys which use layout dependent key-press emulation. */ if (kbd_lang & METHOD_ERR) return -ENODEV; *output = kbd_lang; return 0; } /* sysfs keyboard language entry */ static ssize_t keyboard_lang_show(struct device *dev, struct device_attribute *attr, char *buf) { int output, err, i, len = 0; err = get_keyboard_lang(&output); if (err) return err; for (i = 0; i < ARRAY_SIZE(keyboard_lang_data); i++) { if (i) len += sysfs_emit_at(buf, len, "%s", " "); if (output == keyboard_lang_data[i].lang_code) { len += sysfs_emit_at(buf, len, "[%s]", keyboard_lang_data[i].lang_str); } else { len += sysfs_emit_at(buf, len, "%s", keyboard_lang_data[i].lang_str); } } len += sysfs_emit_at(buf, len, "\n"); return len; } static ssize_t keyboard_lang_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { int err, i; bool lang_found = false; int lang_code = 0; for (i = 0; i < ARRAY_SIZE(keyboard_lang_data); i++) { if (sysfs_streq(buf, keyboard_lang_data[i].lang_str)) { lang_code = keyboard_lang_data[i].lang_code; lang_found = true; break; } } if (lang_found) { lang_code = lang_code | 1 << 24; /* Set language code */ err = set_keyboard_lang_command(lang_code); if (err) return err; } else { dev_err(&tpacpi_pdev->dev, "Unknown Keyboard language. Ignoring\n"); return -EINVAL; } tpacpi_disclose_usertask(attr->attr.name, "keyboard language is set to %s\n", buf); sysfs_notify(&tpacpi_pdev->dev.kobj, NULL, "keyboard_lang"); return count; } static DEVICE_ATTR_RW(keyboard_lang); static struct attribute *kbdlang_attributes[] = { &dev_attr_keyboard_lang.attr, NULL }; static umode_t kbdlang_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { return tp_features.kbd_lang ? attr->mode : 0; } static const struct attribute_group kbdlang_attr_group = { .is_visible = kbdlang_attr_is_visible, .attrs = kbdlang_attributes, }; static int tpacpi_kbdlang_init(struct ibm_init_struct *iibm) { int err, output; err = get_keyboard_lang(&output); tp_features.kbd_lang = !err; return err; } static struct ibm_struct kbdlang_driver_data = { .name = "kbdlang", }; /************************************************************************* * DPRC(Dynamic Power Reduction Control) subdriver, for the Lenovo WWAN * and WLAN feature. */ #define DPRC_GET_WWAN_ANTENNA_TYPE 0x40000 #define DPRC_WWAN_ANTENNA_TYPE_A_BIT BIT(4) #define DPRC_WWAN_ANTENNA_TYPE_B_BIT BIT(8) static bool has_antennatype; static int wwan_antennatype; static int dprc_command(int command, int *output) { acpi_handle dprc_handle; if (ACPI_FAILURE(acpi_get_handle(hkey_handle, "DPRC", &dprc_handle))) { /* Platform doesn't support DPRC */ return -ENODEV; } if (!acpi_evalf(dprc_handle, output, NULL, "dd", command)) return -EIO; /* * METHOD_ERR gets returned on devices where few commands are not supported * for example command to get WWAN Antenna type command is not supported on * some devices. */ if (*output & METHOD_ERR) return -ENODEV; return 0; } static int get_wwan_antenna(int *wwan_antennatype) { int output, err; /* Get current Antenna type */ err = dprc_command(DPRC_GET_WWAN_ANTENNA_TYPE, &output); if (err) return err; if (output & DPRC_WWAN_ANTENNA_TYPE_A_BIT) *wwan_antennatype = 1; else if (output & DPRC_WWAN_ANTENNA_TYPE_B_BIT) *wwan_antennatype = 2; else return -ENODEV; return 0; } /* sysfs wwan antenna type entry */ static ssize_t wwan_antenna_type_show(struct device *dev, struct device_attribute *attr, char *buf) { switch (wwan_antennatype) { case 1: return sysfs_emit(buf, "type a\n"); case 2: return sysfs_emit(buf, "type b\n"); default: return -ENODATA; } } static DEVICE_ATTR_RO(wwan_antenna_type); static struct attribute *dprc_attributes[] = { &dev_attr_wwan_antenna_type.attr, NULL }; static umode_t dprc_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { return has_antennatype ? attr->mode : 0; } static const struct attribute_group dprc_attr_group = { .is_visible = dprc_attr_is_visible, .attrs = dprc_attributes, }; static int tpacpi_dprc_init(struct ibm_init_struct *iibm) { int err; err = get_wwan_antenna(&wwan_antennatype); if (err) return err; has_antennatype = true; return 0; } static struct ibm_struct dprc_driver_data = { .name = "dprc", }; /* --------------------------------------------------------------------- */ static struct attribute *tpacpi_driver_attributes[] = { &driver_attr_debug_level.attr, &driver_attr_version.attr, &driver_attr_interface_version.attr, #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES &driver_attr_wlsw_emulstate.attr, &driver_attr_bluetooth_emulstate.attr, &driver_attr_wwan_emulstate.attr, &driver_attr_uwb_emulstate.attr, #endif NULL }; #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES static umode_t tpacpi_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) { if (attr == &driver_attr_wlsw_emulstate.attr) { if (!dbg_wlswemul) return 0; } else if (attr == &driver_attr_bluetooth_emulstate.attr) { if (!dbg_bluetoothemul) return 0; } else if (attr == &driver_attr_wwan_emulstate.attr) { if (!dbg_wwanemul) return 0; } else if (attr == &driver_attr_uwb_emulstate.attr) { if (!dbg_uwbemul) return 0; } return attr->mode; } #endif static const struct attribute_group tpacpi_driver_attr_group = { #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES .is_visible = tpacpi_attr_is_visible, #endif .attrs = tpacpi_driver_attributes, }; static const struct attribute_group *tpacpi_driver_groups[] = { &tpacpi_driver_attr_group, NULL, }; static const struct attribute_group *tpacpi_groups[] = { &adaptive_kbd_attr_group, &hotkey_attr_group, &bluetooth_attr_group, &wan_attr_group, &cmos_attr_group, &proxsensor_attr_group, &kbdlang_attr_group, &dprc_attr_group, NULL, }; static const struct attribute_group *tpacpi_hwmon_groups[] = { &thermal_attr_group, &temp_label_attr_group, &fan_attr_group, NULL, }; static const struct attribute_group *tpacpi_hwmon_driver_groups[] = { &fan_driver_attr_group, NULL, }; /**************************************************************************** **************************************************************************** * * Platform drivers * **************************************************************************** ****************************************************************************/ static struct platform_driver tpacpi_pdriver = { .driver = { .name = TPACPI_DRVR_NAME, .pm = &tpacpi_pm, .groups = tpacpi_driver_groups, .dev_groups = tpacpi_groups, }, .shutdown = tpacpi_shutdown_handler, }; static struct platform_driver tpacpi_hwmon_pdriver = { .driver = { .name = TPACPI_HWMON_DRVR_NAME, .groups = tpacpi_hwmon_driver_groups, }, }; /**************************************************************************** **************************************************************************** * * Infrastructure * **************************************************************************** ****************************************************************************/ /* * HKEY event callout for other subdrivers go here * (yes, it is ugly, but it is quick, safe, and gets the job done */ static void tpacpi_driver_event(const unsigned int hkey_event) { if (ibm_backlight_device) { switch (hkey_event) { case TP_HKEY_EV_BRGHT_UP: case TP_HKEY_EV_BRGHT_DOWN: tpacpi_brightness_notify_change(); } } if (alsa_card) { switch (hkey_event) { case TP_HKEY_EV_VOL_UP: case TP_HKEY_EV_VOL_DOWN: case TP_HKEY_EV_VOL_MUTE: volume_alsa_notify_change(); } } if (tp_features.kbdlight && hkey_event == TP_HKEY_EV_KBD_LIGHT) { enum led_brightness brightness; mutex_lock(&kbdlight_mutex); /* * Check the brightness actually changed, setting the brightness * through kbdlight_set_level() also triggers this event. */ brightness = kbdlight_sysfs_get(NULL); if (kbdlight_brightness != brightness) { kbdlight_brightness = brightness; led_classdev_notify_brightness_hw_changed( &tpacpi_led_kbdlight.led_classdev, brightness); } mutex_unlock(&kbdlight_mutex); } if (hkey_event == TP_HKEY_EV_THM_CSM_COMPLETED) { lapsensor_refresh(); /* If we are already accessing DYTC then skip dytc update */ if (!atomic_add_unless(&dytc_ignore_event, -1, 0)) dytc_profile_refresh(); } if (lcdshadow_dev && hkey_event == TP_HKEY_EV_PRIVACYGUARD_TOGGLE) { enum drm_privacy_screen_status old_hw_state; bool changed; mutex_lock(&lcdshadow_dev->lock); old_hw_state = lcdshadow_dev->hw_state; lcdshadow_get_hw_state(lcdshadow_dev); changed = lcdshadow_dev->hw_state != old_hw_state; mutex_unlock(&lcdshadow_dev->lock); if (changed) drm_privacy_screen_call_notifier_chain(lcdshadow_dev); } if (hkey_event == TP_HKEY_EV_AMT_TOGGLE) { /* If we're enabling AMT we need to force balanced mode */ if (!dytc_amt_active) /* This will also set AMT mode enabled */ dytc_profile_set(NULL, PLATFORM_PROFILE_BALANCED); else dytc_control_amt(!dytc_amt_active); } } static void hotkey_driver_event(const unsigned int scancode) { tpacpi_driver_event(TP_HKEY_EV_HOTKEY_BASE + scancode); } /* --------------------------------------------------------------------- */ /* /proc support */ static struct proc_dir_entry *proc_dir; /* * Module and infrastructure proble, init and exit handling */ static bool force_load; #ifdef CONFIG_THINKPAD_ACPI_DEBUG static const char * __init str_supported(int is_supported) { static char text_unsupported[] __initdata = "not supported"; return (is_supported) ? &text_unsupported[4] : &text_unsupported[0]; } #endif /* CONFIG_THINKPAD_ACPI_DEBUG */ static void ibm_exit(struct ibm_struct *ibm) { dbg_printk(TPACPI_DBG_EXIT, "removing %s\n", ibm->name); list_del_init(&ibm->all_drivers); if (ibm->flags.acpi_notify_installed) { dbg_printk(TPACPI_DBG_EXIT, "%s: acpi_remove_notify_handler\n", ibm->name); BUG_ON(!ibm->acpi); acpi_remove_notify_handler(*ibm->acpi->handle, ibm->acpi->type, dispatch_acpi_notify); ibm->flags.acpi_notify_installed = 0; } if (ibm->flags.proc_created) { dbg_printk(TPACPI_DBG_EXIT, "%s: remove_proc_entry\n", ibm->name); remove_proc_entry(ibm->name, proc_dir); ibm->flags.proc_created = 0; } if (ibm->flags.acpi_driver_registered) { dbg_printk(TPACPI_DBG_EXIT, "%s: acpi_bus_unregister_driver\n", ibm->name); BUG_ON(!ibm->acpi); acpi_bus_unregister_driver(ibm->acpi->driver); kfree(ibm->acpi->driver); ibm->acpi->driver = NULL; ibm->flags.acpi_driver_registered = 0; } if (ibm->flags.init_called && ibm->exit) { ibm->exit(); ibm->flags.init_called = 0; } dbg_printk(TPACPI_DBG_INIT, "finished removing %s\n", ibm->name); } static int __init ibm_init(struct ibm_init_struct *iibm) { int ret; struct ibm_struct *ibm = iibm->data; struct proc_dir_entry *entry; BUG_ON(ibm == NULL); INIT_LIST_HEAD(&ibm->all_drivers); if (ibm->flags.experimental && !experimental) return 0; dbg_printk(TPACPI_DBG_INIT, "probing for %s\n", ibm->name); if (iibm->init) { ret = iibm->init(iibm); if (ret > 0 || ret == -ENODEV) return 0; /* subdriver functionality not available */ if (ret) return ret; ibm->flags.init_called = 1; } if (ibm->acpi) { if (ibm->acpi->hid) { ret = register_tpacpi_subdriver(ibm); if (ret) goto err_out; } if (ibm->acpi->notify) { ret = setup_acpi_notify(ibm); if (ret == -ENODEV) { pr_notice("disabling subdriver %s\n", ibm->name); ret = 0; goto err_out; } if (ret < 0) goto err_out; } } dbg_printk(TPACPI_DBG_INIT, "%s installed\n", ibm->name); if (ibm->read) { umode_t mode = iibm->base_procfs_mode; if (!mode) mode = S_IRUGO; if (ibm->write) mode |= S_IWUSR; entry = proc_create_data(ibm->name, mode, proc_dir, &dispatch_proc_ops, ibm); if (!entry) { pr_err("unable to create proc entry %s\n", ibm->name); ret = -ENODEV; goto err_out; } ibm->flags.proc_created = 1; } list_add_tail(&ibm->all_drivers, &tpacpi_all_drivers); return 0; err_out: dbg_printk(TPACPI_DBG_INIT, "%s: at error exit path with result %d\n", ibm->name, ret); ibm_exit(ibm); return (ret < 0) ? ret : 0; } /* Probing */ static char __init tpacpi_parse_fw_id(const char * const s, u32 *model, u16 *release) { int i; if (!s || strlen(s) < 8) goto invalid; for (i = 0; i < 8; i++) if (!((s[i] >= '0' && s[i] <= '9') || (s[i] >= 'A' && s[i] <= 'Z'))) goto invalid; /* * Most models: xxyTkkWW (#.##c) * Ancient 570/600 and -SL lacks (#.##c) */ if (s[3] == 'T' || s[3] == 'N') { *model = TPID(s[0], s[1]); *release = TPVER(s[4], s[5]); return s[2]; /* New models: xxxyTkkW (#.##c); T550 and some others */ } else if (s[4] == 'T' || s[4] == 'N') { *model = TPID3(s[0], s[1], s[2]); *release = TPVER(s[5], s[6]); return s[3]; } invalid: return '\0'; } static void find_new_ec_fwstr(const struct dmi_header *dm, void *private) { char *ec_fw_string = (char *) private; const char *dmi_data = (const char *)dm; /* * ThinkPad Embedded Controller Program Table on newer models * * Offset | Name | Width | Description * ---------------------------------------------------- * 0x00 | Type | BYTE | 0x8C * 0x01 | Length | BYTE | * 0x02 | Handle | WORD | Varies * 0x04 | Signature | BYTEx6 | ASCII for "LENOVO" * 0x0A | OEM struct offset | BYTE | 0x0B * 0x0B | OEM struct number | BYTE | 0x07, for this structure * 0x0C | OEM struct revision | BYTE | 0x01, for this format * 0x0D | ECP version ID | STR ID | * 0x0E | ECP release date | STR ID | */ /* Return if data structure not match */ if (dm->type != 140 || dm->length < 0x0F || memcmp(dmi_data + 4, "LENOVO", 6) != 0 || dmi_data[0x0A] != 0x0B || dmi_data[0x0B] != 0x07 || dmi_data[0x0C] != 0x01) return; /* fwstr is the first 8byte string */ strncpy(ec_fw_string, dmi_data + 0x0F, 8); } /* returns 0 - probe ok, or < 0 - probe error. * Probe ok doesn't mean thinkpad found. * On error, kfree() cleanup on tp->* is not performed, caller must do it */ static int __must_check __init get_thinkpad_model_data( struct thinkpad_id_data *tp) { const struct dmi_device *dev = NULL; char ec_fw_string[18] = {0}; char const *s; char t; if (!tp) return -EINVAL; memset(tp, 0, sizeof(*tp)); if (dmi_name_in_vendors("IBM")) tp->vendor = PCI_VENDOR_ID_IBM; else if (dmi_name_in_vendors("LENOVO")) tp->vendor = PCI_VENDOR_ID_LENOVO; else return 0; s = dmi_get_system_info(DMI_BIOS_VERSION); tp->bios_version_str = kstrdup(s, GFP_KERNEL); if (s && !tp->bios_version_str) return -ENOMEM; /* Really ancient ThinkPad 240X will fail this, which is fine */ t = tpacpi_parse_fw_id(tp->bios_version_str, &tp->bios_model, &tp->bios_release); if (t != 'E' && t != 'C') return 0; /* * ThinkPad T23 or newer, A31 or newer, R50e or newer, * X32 or newer, all Z series; Some models must have an * up-to-date BIOS or they will not be detected. * * See https://thinkwiki.org/wiki/List_of_DMI_IDs */ while ((dev = dmi_find_device(DMI_DEV_TYPE_OEM_STRING, NULL, dev))) { if (sscanf(dev->name, "IBM ThinkPad Embedded Controller -[%17c", ec_fw_string) == 1) { ec_fw_string[sizeof(ec_fw_string) - 1] = 0; ec_fw_string[strcspn(ec_fw_string, " ]")] = 0; break; } } /* Newer ThinkPads have different EC program info table */ if (!ec_fw_string[0]) dmi_walk(find_new_ec_fwstr, &ec_fw_string); if (ec_fw_string[0]) { tp->ec_version_str = kstrdup(ec_fw_string, GFP_KERNEL); if (!tp->ec_version_str) return -ENOMEM; t = tpacpi_parse_fw_id(ec_fw_string, &tp->ec_model, &tp->ec_release); if (t != 'H') { pr_notice("ThinkPad firmware release %s doesn't match the known patterns\n", ec_fw_string); pr_notice("please report this to %s\n", TPACPI_MAIL); } } s = dmi_get_system_info(DMI_PRODUCT_VERSION); if (s && !(strncasecmp(s, "ThinkPad", 8) && strncasecmp(s, "Lenovo", 6))) { tp->model_str = kstrdup(s, GFP_KERNEL); if (!tp->model_str) return -ENOMEM; } else { s = dmi_get_system_info(DMI_BIOS_VENDOR); if (s && !(strncasecmp(s, "Lenovo", 6))) { tp->model_str = kstrdup(s, GFP_KERNEL); if (!tp->model_str) return -ENOMEM; } } s = dmi_get_system_info(DMI_PRODUCT_NAME); tp->nummodel_str = kstrdup(s, GFP_KERNEL); if (s && !tp->nummodel_str) return -ENOMEM; return 0; } static int __init probe_for_thinkpad(void) { int is_thinkpad; if (acpi_disabled) return -ENODEV; /* It would be dangerous to run the driver in this case */ if (!tpacpi_is_ibm() && !tpacpi_is_lenovo()) return -ENODEV; /* * Non-ancient models have better DMI tagging, but very old models * don't. tpacpi_is_fw_known() is a cheat to help in that case. */ is_thinkpad = (thinkpad_id.model_str != NULL) || (thinkpad_id.ec_model != 0) || tpacpi_is_fw_known(); /* The EC handler is required */ tpacpi_acpi_handle_locate("ec", TPACPI_ACPI_EC_HID, &ec_handle); if (!ec_handle) { if (is_thinkpad) pr_err("Not yet supported ThinkPad detected!\n"); return -ENODEV; } if (!is_thinkpad && !force_load) return -ENODEV; return 0; } static void __init thinkpad_acpi_init_banner(void) { pr_info("%s v%s\n", TPACPI_DESC, TPACPI_VERSION); pr_info("%s\n", TPACPI_URL); pr_info("ThinkPad BIOS %s, EC %s\n", (thinkpad_id.bios_version_str) ? thinkpad_id.bios_version_str : "unknown", (thinkpad_id.ec_version_str) ? thinkpad_id.ec_version_str : "unknown"); BUG_ON(!thinkpad_id.vendor); if (thinkpad_id.model_str) pr_info("%s %s, model %s\n", (thinkpad_id.vendor == PCI_VENDOR_ID_IBM) ? "IBM" : ((thinkpad_id.vendor == PCI_VENDOR_ID_LENOVO) ? "Lenovo" : "Unknown vendor"), thinkpad_id.model_str, (thinkpad_id.nummodel_str) ? thinkpad_id.nummodel_str : "unknown"); } /* Module init, exit, parameters */ static struct ibm_init_struct ibms_init[] __initdata = { { .data = &thinkpad_acpi_driver_data, }, { .init = hotkey_init, .data = &hotkey_driver_data, }, { .init = bluetooth_init, .data = &bluetooth_driver_data, }, { .init = wan_init, .data = &wan_driver_data, }, { .init = uwb_init, .data = &uwb_driver_data, }, #ifdef CONFIG_THINKPAD_ACPI_VIDEO { .init = video_init, .base_procfs_mode = S_IRUSR, .data = &video_driver_data, }, #endif { .init = kbdlight_init, .data = &kbdlight_driver_data, }, { .init = light_init, .data = &light_driver_data, }, { .init = cmos_init, .data = &cmos_driver_data, }, { .init = led_init, .data = &led_driver_data, }, { .init = beep_init, .data = &beep_driver_data, }, { .init = thermal_init, .data = &thermal_driver_data, }, { .init = brightness_init, .data = &brightness_driver_data, }, { .init = volume_init, .data = &volume_driver_data, }, { .init = fan_init, .data = &fan_driver_data, }, { .init = mute_led_init, .data = &mute_led_driver_data, }, { .init = tpacpi_battery_init, .data = &battery_driver_data, }, { .init = tpacpi_lcdshadow_init, .data = &lcdshadow_driver_data, }, { .init = tpacpi_proxsensor_init, .data = &proxsensor_driver_data, }, { .init = tpacpi_dytc_profile_init, .data = &dytc_profile_driver_data, }, { .init = tpacpi_kbdlang_init, .data = &kbdlang_driver_data, }, { .init = tpacpi_dprc_init, .data = &dprc_driver_data, }, }; static int __init set_ibm_param(const char *val, const struct kernel_param *kp) { unsigned int i; struct ibm_struct *ibm; if (!kp || !kp->name || !val) return -EINVAL; for (i = 0; i < ARRAY_SIZE(ibms_init); i++) { ibm = ibms_init[i].data; if (!ibm || !ibm->name) continue; if (strcmp(ibm->name, kp->name) == 0 && ibm->write) { if (strlen(val) > sizeof(ibms_init[i].param) - 1) return -ENOSPC; strcpy(ibms_init[i].param, val); return 0; } } return -EINVAL; } module_param(experimental, int, 0444); MODULE_PARM_DESC(experimental, "Enables experimental features when non-zero"); module_param_named(debug, dbg_level, uint, 0); MODULE_PARM_DESC(debug, "Sets debug level bit-mask"); module_param(force_load, bool, 0444); MODULE_PARM_DESC(force_load, "Attempts to load the driver even on a mis-identified ThinkPad when true"); module_param_named(fan_control, fan_control_allowed, bool, 0444); MODULE_PARM_DESC(fan_control, "Enables setting fan parameters features when true"); module_param_named(brightness_mode, brightness_mode, uint, 0444); MODULE_PARM_DESC(brightness_mode, "Selects brightness control strategy: 0=auto, 1=EC, 2=UCMS, 3=EC+NVRAM"); module_param(brightness_enable, uint, 0444); MODULE_PARM_DESC(brightness_enable, "Enables backlight control when 1, disables when 0"); #ifdef CONFIG_THINKPAD_ACPI_ALSA_SUPPORT module_param_named(volume_mode, volume_mode, uint, 0444); MODULE_PARM_DESC(volume_mode, "Selects volume control strategy: 0=auto, 1=EC, 2=N/A, 3=EC+NVRAM"); module_param_named(volume_capabilities, volume_capabilities, uint, 0444); MODULE_PARM_DESC(volume_capabilities, "Selects the mixer capabilities: 0=auto, 1=volume and mute, 2=mute only"); module_param_named(volume_control, volume_control_allowed, bool, 0444); MODULE_PARM_DESC(volume_control, "Enables software override for the console audio control when true"); module_param_named(software_mute, software_mute_requested, bool, 0444); MODULE_PARM_DESC(software_mute, "Request full software mute control"); /* ALSA module API parameters */ module_param_named(index, alsa_index, int, 0444); MODULE_PARM_DESC(index, "ALSA index for the ACPI EC Mixer"); module_param_named(id, alsa_id, charp, 0444); MODULE_PARM_DESC(id, "ALSA id for the ACPI EC Mixer"); module_param_named(enable, alsa_enable, bool, 0444); MODULE_PARM_DESC(enable, "Enable the ALSA interface for the ACPI EC Mixer"); #endif /* CONFIG_THINKPAD_ACPI_ALSA_SUPPORT */ /* The module parameter can't be read back, that's why 0 is used here */ #define TPACPI_PARAM(feature) \ module_param_call(feature, set_ibm_param, NULL, NULL, 0); \ MODULE_PARM_DESC(feature, "Simulates thinkpad-acpi procfs command at module load, see documentation") TPACPI_PARAM(hotkey); TPACPI_PARAM(bluetooth); TPACPI_PARAM(video); TPACPI_PARAM(light); TPACPI_PARAM(cmos); TPACPI_PARAM(led); TPACPI_PARAM(beep); TPACPI_PARAM(brightness); TPACPI_PARAM(volume); TPACPI_PARAM(fan); #ifdef CONFIG_THINKPAD_ACPI_DEBUGFACILITIES module_param(dbg_wlswemul, uint, 0444); MODULE_PARM_DESC(dbg_wlswemul, "Enables WLSW emulation"); module_param_named(wlsw_state, tpacpi_wlsw_emulstate, bool, 0); MODULE_PARM_DESC(wlsw_state, "Initial state of the emulated WLSW switch"); module_param(dbg_bluetoothemul, uint, 0444); MODULE_PARM_DESC(dbg_bluetoothemul, "Enables bluetooth switch emulation"); module_param_named(bluetooth_state, tpacpi_bluetooth_emulstate, bool, 0); MODULE_PARM_DESC(bluetooth_state, "Initial state of the emulated bluetooth switch"); module_param(dbg_wwanemul, uint, 0444); MODULE_PARM_DESC(dbg_wwanemul, "Enables WWAN switch emulation"); module_param_named(wwan_state, tpacpi_wwan_emulstate, bool, 0); MODULE_PARM_DESC(wwan_state, "Initial state of the emulated WWAN switch"); module_param(dbg_uwbemul, uint, 0444); MODULE_PARM_DESC(dbg_uwbemul, "Enables UWB switch emulation"); module_param_named(uwb_state, tpacpi_uwb_emulstate, bool, 0); MODULE_PARM_DESC(uwb_state, "Initial state of the emulated UWB switch"); #endif module_param(profile_force, int, 0444); MODULE_PARM_DESC(profile_force, "Force profile mode. -1=off, 1=MMC, 2=PSC"); static void thinkpad_acpi_module_exit(void) { struct ibm_struct *ibm, *itmp; tpacpi_lifecycle = TPACPI_LIFE_EXITING; #ifdef CONFIG_SUSPEND if (tp_features.quirks && tp_features.quirks->s2idle_bug_mmio) acpi_unregister_lps0_dev(&thinkpad_acpi_s2idle_dev_ops); #endif if (tpacpi_hwmon) hwmon_device_unregister(tpacpi_hwmon); if (tp_features.sensors_pdrv_registered) platform_driver_unregister(&tpacpi_hwmon_pdriver); if (tp_features.platform_drv_registered) platform_driver_unregister(&tpacpi_pdriver); list_for_each_entry_safe_reverse(ibm, itmp, &tpacpi_all_drivers, all_drivers) { ibm_exit(ibm); } dbg_printk(TPACPI_DBG_INIT, "finished subdriver exit path...\n"); if (tpacpi_inputdev) { if (tp_features.input_device_registered) input_unregister_device(tpacpi_inputdev); else input_free_device(tpacpi_inputdev); kfree(hotkey_keycode_map); } if (tpacpi_sensors_pdev) platform_device_unregister(tpacpi_sensors_pdev); if (tpacpi_pdev) platform_device_unregister(tpacpi_pdev); if (proc_dir) remove_proc_entry(TPACPI_PROC_DIR, acpi_root_dir); if (tpacpi_wq) destroy_workqueue(tpacpi_wq); kfree(thinkpad_id.bios_version_str); kfree(thinkpad_id.ec_version_str); kfree(thinkpad_id.model_str); kfree(thinkpad_id.nummodel_str); } static int __init thinkpad_acpi_module_init(void) { const struct dmi_system_id *dmi_id; int ret, i; tpacpi_lifecycle = TPACPI_LIFE_INIT; /* Driver-level probe */ ret = get_thinkpad_model_data(&thinkpad_id); if (ret) { pr_err("unable to get DMI data: %d\n", ret); thinkpad_acpi_module_exit(); return ret; } ret = probe_for_thinkpad(); if (ret) { thinkpad_acpi_module_exit(); return ret; } /* Driver initialization */ thinkpad_acpi_init_banner(); tpacpi_check_outdated_fw(); TPACPI_ACPIHANDLE_INIT(ecrd); TPACPI_ACPIHANDLE_INIT(ecwr); tpacpi_wq = create_singlethread_workqueue(TPACPI_WORKQUEUE_NAME); if (!tpacpi_wq) { thinkpad_acpi_module_exit(); return -ENOMEM; } proc_dir = proc_mkdir(TPACPI_PROC_DIR, acpi_root_dir); if (!proc_dir) { pr_err("unable to create proc dir " TPACPI_PROC_DIR "\n"); thinkpad_acpi_module_exit(); return -ENODEV; } dmi_id = dmi_first_match(fwbug_list); if (dmi_id) tp_features.quirks = dmi_id->driver_data; /* Device initialization */ tpacpi_pdev = platform_device_register_simple(TPACPI_DRVR_NAME, PLATFORM_DEVID_NONE, NULL, 0); if (IS_ERR(tpacpi_pdev)) { ret = PTR_ERR(tpacpi_pdev); tpacpi_pdev = NULL; pr_err("unable to register platform device\n"); thinkpad_acpi_module_exit(); return ret; } tpacpi_sensors_pdev = platform_device_register_simple( TPACPI_HWMON_DRVR_NAME, PLATFORM_DEVID_NONE, NULL, 0); if (IS_ERR(tpacpi_sensors_pdev)) { ret = PTR_ERR(tpacpi_sensors_pdev); tpacpi_sensors_pdev = NULL; pr_err("unable to register hwmon platform device\n"); thinkpad_acpi_module_exit(); return ret; } mutex_init(&tpacpi_inputdev_send_mutex); tpacpi_inputdev = input_allocate_device(); if (!tpacpi_inputdev) { thinkpad_acpi_module_exit(); return -ENOMEM; } else { /* Prepare input device, but don't register */ tpacpi_inputdev->name = "ThinkPad Extra Buttons"; tpacpi_inputdev->phys = TPACPI_DRVR_NAME "/input0"; tpacpi_inputdev->id.bustype = BUS_HOST; tpacpi_inputdev->id.vendor = thinkpad_id.vendor; tpacpi_inputdev->id.product = TPACPI_HKEY_INPUT_PRODUCT; tpacpi_inputdev->id.version = TPACPI_HKEY_INPUT_VERSION; tpacpi_inputdev->dev.parent = &tpacpi_pdev->dev; } /* Init subdriver dependencies */ tpacpi_detect_brightness_capabilities(); /* Init subdrivers */ for (i = 0; i < ARRAY_SIZE(ibms_init); i++) { ret = ibm_init(&ibms_init[i]); if (ret >= 0 && *ibms_init[i].param) ret = ibms_init[i].data->write(ibms_init[i].param); if (ret < 0) { thinkpad_acpi_module_exit(); return ret; } } tpacpi_lifecycle = TPACPI_LIFE_RUNNING; ret = platform_driver_register(&tpacpi_pdriver); if (ret) { pr_err("unable to register main platform driver\n"); thinkpad_acpi_module_exit(); return ret; } tp_features.platform_drv_registered = 1; ret = platform_driver_register(&tpacpi_hwmon_pdriver); if (ret) { pr_err("unable to register hwmon platform driver\n"); thinkpad_acpi_module_exit(); return ret; } tp_features.sensors_pdrv_registered = 1; tpacpi_hwmon = hwmon_device_register_with_groups( &tpacpi_sensors_pdev->dev, TPACPI_NAME, NULL, tpacpi_hwmon_groups); if (IS_ERR(tpacpi_hwmon)) { ret = PTR_ERR(tpacpi_hwmon); tpacpi_hwmon = NULL; pr_err("unable to register hwmon device\n"); thinkpad_acpi_module_exit(); return ret; } ret = input_register_device(tpacpi_inputdev); if (ret < 0) { pr_err("unable to register input device\n"); thinkpad_acpi_module_exit(); return ret; } else { tp_features.input_device_registered = 1; } #ifdef CONFIG_SUSPEND if (tp_features.quirks && tp_features.quirks->s2idle_bug_mmio) { if (!acpi_register_lps0_dev(&thinkpad_acpi_s2idle_dev_ops)) pr_info("Using s2idle quirk to avoid %s platform firmware bug\n", (dmi_id && dmi_id->ident) ? dmi_id->ident : ""); } #endif return 0; } MODULE_ALIAS(TPACPI_DRVR_SHORTNAME); /* * This will autoload the driver in almost every ThinkPad * in widespread use. * * Only _VERY_ old models, like the 240, 240x and 570 lack * the HKEY event interface. */ MODULE_DEVICE_TABLE(acpi, ibm_htk_device_ids); /* * DMI matching for module autoloading * * See https://thinkwiki.org/wiki/List_of_DMI_IDs * See https://thinkwiki.org/wiki/BIOS_Upgrade_Downloads * * Only models listed in thinkwiki will be supported, so add yours * if it is not there yet. */ #define IBM_BIOS_MODULE_ALIAS(__type) \ MODULE_ALIAS("dmi:bvnIBM:bvr" __type "ET??WW*") /* Ancient thinkpad BIOSes have to be identified by * BIOS type or model number, and there are far less * BIOS types than model numbers... */ IBM_BIOS_MODULE_ALIAS("I[MU]"); /* 570, 570e */ MODULE_AUTHOR("Borislav Deianov <borislav@users.sf.net>"); MODULE_AUTHOR("Henrique de Moraes Holschuh <hmh@hmh.eng.br>"); MODULE_DESCRIPTION(TPACPI_DESC); MODULE_VERSION(TPACPI_VERSION); MODULE_LICENSE("GPL"); module_init(thinkpad_acpi_module_init); module_exit(thinkpad_acpi_module_exit); |