/*! * Copyright (c) 2020-2021 TUXEDO Computers GmbH * * This file is part of tuxedo-keyboard. * * tuxedo-keyboard is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this software. If not, see . */ #include "tuxedo_keyboard_common.h" #include #include #include #include #include #include #include #include #include #include "uniwill_interfaces.h" #define UNIWILL_WMI_MGMT_GUID_BA "ABBC0F6D-8EA1-11D1-00A0-C90629100000" #define UNIWILL_WMI_MGMT_GUID_BB "ABBC0F6E-8EA1-11D1-00A0-C90629100000" #define UNIWILL_WMI_MGMT_GUID_BC "ABBC0F6F-8EA1-11D1-00A0-C90629100000" #define UNIWILL_WMI_EVENT_GUID_0 "ABBC0F70-8EA1-11D1-00A0-C90629100000" #define UNIWILL_WMI_EVENT_GUID_1 "ABBC0F71-8EA1-11D1-00A0-C90629100000" #define UNIWILL_WMI_EVENT_GUID_2 "ABBC0F72-8EA1-11D1-00A0-C90629100000" #define UNIWILL_OSD_RADIOON 0x01A #define UNIWILL_OSD_RADIOOFF 0x01B #define UNIWILL_OSD_KB_LED_LEVEL0 0x03B #define UNIWILL_OSD_KB_LED_LEVEL1 0x03C #define UNIWILL_OSD_KB_LED_LEVEL2 0x03D #define UNIWILL_OSD_KB_LED_LEVEL3 0x03E #define UNIWILL_OSD_KB_LED_LEVEL4 0x03F #define UNIWILL_OSD_DC_ADAPTER_CHANGE 0x0AB #define UNIWILL_KEY_RFKILL 0x0A4 #define UNIWILL_KEY_KBDILLUMDOWN 0x0B1 #define UNIWILL_KEY_KBDILLUMUP 0x0B2 #define UNIWILL_KEY_KBDILLUMTOGGLE 0x0B9 #define UNIWILL_OSD_TOUCHPADWORKAROUND 0xFFF #define UNIWILL_BRIGHTNESS_MIN 0x00 #define UNIWILL_BRIGHTNESS_MAX 0xc8 #define UNIWILL_BRIGHTNESS_DEFAULT UNIWILL_BRIGHTNESS_MAX * 0.30 #define UNIWILL_COLOR_DEFAULT 0xffffff struct tuxedo_keyboard_driver uniwill_keyboard_driver; struct kbd_led_state_uw_t { u32 brightness; u32 color; } kbd_led_state_uw = { .brightness = UNIWILL_BRIGHTNESS_DEFAULT, .color = UNIWILL_COLOR_DEFAULT, }; static u8 uniwill_kbd_bl_enable_state_on_start; static bool uniwill_kbd_bl_type_rgb_single_color = true; static struct key_entry uniwill_wmi_keymap[] = { // { KE_KEY, UNIWILL_OSD_RADIOON, { KEY_RFKILL } }, // { KE_KEY, UNIWILL_OSD_RADIOOFF, { KEY_RFKILL } }, // { KE_KEY, 0xb0, { KEY_F13 } }, // Manual mode rfkill { KE_KEY, UNIWILL_KEY_RFKILL, { KEY_RFKILL }}, { KE_KEY, UNIWILL_OSD_TOUCHPADWORKAROUND, { KEY_F21 } }, // Keyboard brightness { KE_KEY, UNIWILL_KEY_KBDILLUMDOWN, { KEY_KBDILLUMDOWN } }, { KE_KEY, UNIWILL_KEY_KBDILLUMUP, { KEY_KBDILLUMUP } }, { KE_KEY, UNIWILL_KEY_KBDILLUMTOGGLE, { KEY_KBDILLUMTOGGLE } }, // Only used to put ev bits { KE_KEY, 0xffff, { KEY_F6 } }, { KE_KEY, 0xffff, { KEY_LEFTALT } }, { KE_KEY, 0xffff, { KEY_LEFTMETA } }, { KE_END, 0 } }; static struct uniwill_interfaces_t { struct uniwill_interface_t *wmi; } uniwill_interfaces; uniwill_event_callb_t uniwill_event_callb; u32 uniwill_read_ec_ram(u16 address, u8 *data) { u32 status; if (!IS_ERR_OR_NULL(uniwill_interfaces.wmi)) status = uniwill_interfaces.wmi->read_ec_ram(address, data); else { pr_err("no active interface while read addr 0x%04x\n", address); status = -EIO; } return status; } EXPORT_SYMBOL(uniwill_read_ec_ram); u32 uniwill_write_ec_ram(u16 address, u8 data) { u32 status; if (!IS_ERR_OR_NULL(uniwill_interfaces.wmi)) status = uniwill_interfaces.wmi->write_ec_ram(address, data); else { pr_err("no active interface while write addr 0x%04x data 0x%02x\n", address, data); status = -EIO; } return status; } EXPORT_SYMBOL(uniwill_write_ec_ram); static DEFINE_MUTEX(uniwill_interface_modification_lock); u32 uniwill_add_interface(struct uniwill_interface_t *interface) { mutex_lock(&uniwill_interface_modification_lock); if (strcmp(interface->string_id, UNIWILL_INTERFACE_WMI_STRID) == 0) uniwill_interfaces.wmi = interface; else { TUXEDO_DEBUG("trying to add unknown interface\n"); mutex_unlock(&uniwill_interface_modification_lock); return -EINVAL; } interface->event_callb = uniwill_event_callb; mutex_unlock(&uniwill_interface_modification_lock); // Initialize driver if not already present tuxedo_keyboard_init_driver(&uniwill_keyboard_driver); return 0; } EXPORT_SYMBOL(uniwill_add_interface); u32 uniwill_remove_interface(struct uniwill_interface_t *interface) { mutex_lock(&uniwill_interface_modification_lock); if (strcmp(interface->string_id, UNIWILL_INTERFACE_WMI_STRID) == 0) { // Remove driver if last interface is removed tuxedo_keyboard_remove_driver(&uniwill_keyboard_driver); uniwill_interfaces.wmi = NULL; } else { mutex_unlock(&uniwill_interface_modification_lock); return -EINVAL; } mutex_unlock(&uniwill_interface_modification_lock); return 0; } EXPORT_SYMBOL(uniwill_remove_interface); static void key_event_work(struct work_struct *work) { sparse_keymap_report_known_event( uniwill_keyboard_driver.input_device, UNIWILL_OSD_TOUCHPADWORKAROUND, 1, true ); } // Previous key codes for detecting longer combination static u32 prev_key = 0, prevprev_key = 0; static DECLARE_WORK(uniwill_key_event_work, key_event_work); static int keyboard_notifier_callb(struct notifier_block *nb, unsigned long code, void *_param) { struct keyboard_notifier_param *param = _param; int ret = NOTIFY_OK; if (!param->down) { if (code == KBD_KEYCODE) { switch (param->value) { case 125: // If the last keys up were 85 -> 29 -> 125 // manually report KEY_F21 if (prevprev_key == 85 && prev_key == 29) { TUXEDO_DEBUG("Touchpad Toggle\n"); schedule_work(&uniwill_key_event_work); ret = NOTIFY_OK; } break; } prevprev_key = prev_key; prev_key = param->value; } } return ret; } static struct notifier_block keyboard_notifier_block = { .notifier_call = keyboard_notifier_callb }; static u8 uniwill_read_kbd_bl_enabled(void) { u8 backlight_data; u8 enabled = 0xff; uniwill_read_ec_ram(0x078c, &backlight_data); enabled = (backlight_data >> 1) & 0x01; enabled = !enabled; return enabled; } static void uniwill_write_kbd_bl_enable(u8 enable) { u8 backlight_data; enable = enable & 0x01; uniwill_read_ec_ram(0x078c, &backlight_data); backlight_data = backlight_data & ~(1 << 1); backlight_data |= (!enable << 1); uniwill_write_ec_ram(0x078c, backlight_data); } /*static u32 uniwill_read_kbd_bl_br_state(u8 *brightness_state) { u8 backlight_data; u32 result; uniwill_read_ec_ram(0x078c, &backlight_data); *brightness_state = (backlight_data & 0xf0) >> 4; result = 0; return result; }*/ static u32 uniwill_read_kbd_bl_rgb(u8 *red, u8 *green, u8 *blue) { u32 result; uniwill_read_ec_ram(0x1803, red); uniwill_read_ec_ram(0x1805, green); uniwill_read_ec_ram(0x1808, blue); result = 0; return result; } static void uniwill_write_kbd_bl_rgb(u8 red, u8 green, u8 blue) { if (red > 0xc8) red = 0xc8; if (green > 0xc8) green = 0xc8; if (blue > 0xc8) blue = 0xc8; uniwill_write_ec_ram(0x1803, red); uniwill_write_ec_ram(0x1805, green); uniwill_write_ec_ram(0x1808, blue); TUXEDO_DEBUG("Wrote kbd color [%0#4x, %0#4x, %0#4x]\n", red, green, blue); } static void uniwill_write_kbd_bl_state(void) { // Get single colors from state u32 color_red = ((kbd_led_state_uw.color >> 0x10) & 0xff); u32 color_green = (kbd_led_state_uw.color >> 0x08) & 0xff; u32 color_blue = (kbd_led_state_uw.color >> 0x00) & 0xff; u32 brightness_percentage = (kbd_led_state_uw.brightness * 100) / UNIWILL_BRIGHTNESS_MAX; // Scale color values to valid range color_red = (color_red * 0xc8) / 0xff; color_green = (color_green * 0xc8) / 0xff; color_blue = (color_blue * 0xc8) / 0xff; // Scale the respective color values with brightness color_red = (color_red * brightness_percentage) / 100; color_green = (color_green * brightness_percentage) / 100; color_blue = (color_blue * brightness_percentage) / 100; uniwill_write_kbd_bl_rgb(color_red, color_green, color_blue); } static void uniwill_write_kbd_bl_reset(void) { uniwill_write_ec_ram(0x078c, 0x10); } void uniwill_event_callb(u32 code) { if (uniwill_keyboard_driver.input_device != NULL) if (!sparse_keymap_report_known_event(uniwill_keyboard_driver.input_device, code, 1, true)) { TUXEDO_DEBUG("Unknown code - %d (%0#6x)\n", code, code); } // Special key combination when mode change key is pressed if (code == 0xb0) { input_report_key(uniwill_keyboard_driver.input_device, KEY_LEFTMETA, 1); input_report_key(uniwill_keyboard_driver.input_device, KEY_LEFTALT, 1); input_report_key(uniwill_keyboard_driver.input_device, KEY_F6, 1); input_sync(uniwill_keyboard_driver.input_device); input_report_key(uniwill_keyboard_driver.input_device, KEY_F6, 0); input_report_key(uniwill_keyboard_driver.input_device, KEY_LEFTALT, 0); input_report_key(uniwill_keyboard_driver.input_device, KEY_LEFTMETA, 0); input_sync(uniwill_keyboard_driver.input_device); } // Keyboard backlight brightness toggle if (uniwill_kbd_bl_type_rgb_single_color) { switch (code) { case UNIWILL_OSD_KB_LED_LEVEL0: kbd_led_state_uw.brightness = 0x00; uniwill_write_kbd_bl_state(); break; case UNIWILL_OSD_KB_LED_LEVEL1: kbd_led_state_uw.brightness = 0x20; uniwill_write_kbd_bl_state(); break; case UNIWILL_OSD_KB_LED_LEVEL2: kbd_led_state_uw.brightness = 0x50; uniwill_write_kbd_bl_state(); break; case UNIWILL_OSD_KB_LED_LEVEL3: kbd_led_state_uw.brightness = 0x80; uniwill_write_kbd_bl_state(); break; case UNIWILL_OSD_KB_LED_LEVEL4: kbd_led_state_uw.brightness = 0xc8; uniwill_write_kbd_bl_state(); break; // Also refresh keyboard state on cable switch event case UNIWILL_OSD_DC_ADAPTER_CHANGE: uniwill_write_kbd_bl_state(); break; } } } /*static void uniwill_wmi_handle_event(u32 value, void *context, u32 guid_nr) { struct acpi_buffer response = { ACPI_ALLOCATE_BUFFER, NULL }; union acpi_object *obj; acpi_status status; int code; status = wmi_get_event_data(value, &response); if (status != AE_OK) { TUXEDO_ERROR("uniwill handle event -> bad event status\n"); return; } obj = (union acpi_object *) response.pointer; if (obj) { if (obj->type == ACPI_TYPE_INTEGER) { code = obj->integer.value; uniwill_event_callb(code); } else { TUXEDO_DEBUG("[Ev %d] Unknown event type - %d (%0#6x)\n", guid_nr, obj->type, obj->type); } } kfree(obj); }*/ /*static void uniwill_wmi_notify0(u32 value, void *context) { uniwill_wmi_handle_event(value, context, 0); } static void uniwill_wmi_notify1(u32 value, void *context) { uniwill_wmi_handle_event(value, context, 1); } static void uniwill_wmi_notify2(u32 value, void *context) { uniwill_wmi_handle_event(value, context, 2); }*/ static ssize_t uw_brightness_show(struct device *child, struct device_attribute *attr, char *buffer) { return sprintf(buffer, "%d\n", kbd_led_state_uw.brightness); } static ssize_t uw_brightness_store(struct device *child, struct device_attribute *attr, const char *buffer, size_t size) { u32 brightness_input; int err = kstrtouint(buffer, 0, &brightness_input); if (err) return err; if (brightness_input > UNIWILL_BRIGHTNESS_MAX) return -EINVAL; kbd_led_state_uw.brightness = (u8)brightness_input; uniwill_write_kbd_bl_state(); return size; } static ssize_t uw_color_string_show(struct device *child, struct device_attribute *attr, char *buffer) { int i; sprintf(buffer, "Color values:"); for (i = 0; i < color_list.size; ++i) { sprintf(buffer + strlen(buffer), " %s", color_list.colors[i].name); } sprintf(buffer + strlen(buffer), "\n"); return strlen(buffer); } static ssize_t uw_color_string_store(struct device *child, struct device_attribute *attr, const char *buffer, size_t size) { u32 color_value; char *buffer_copy; buffer_copy = kmalloc(size + 1, GFP_KERNEL); strcpy(buffer_copy, buffer); color_value = color_lookup(&color_list, strstrip(buffer_copy)); kfree(buffer_copy); if (color_value > 0xffffff) return -EINVAL; kbd_led_state_uw.color = color_value; uniwill_write_kbd_bl_state(); return size; } // Device attributes used by uw kbd struct uw_kbd_dev_attrs_t { struct device_attribute brightness; struct device_attribute color_string; } uw_kbd_dev_attrs = { .brightness = __ATTR(brightness, 0644, uw_brightness_show, uw_brightness_store), .color_string = __ATTR(color_string, 0644, uw_color_string_show, uw_color_string_store) }; // Device attributes used for uw_kbd_bl_color static struct attribute *uw_kbd_bl_color_attrs[] = { &uw_kbd_dev_attrs.brightness.attr, &uw_kbd_dev_attrs.color_string.attr, NULL }; static struct attribute_group uw_kbd_bl_color_attr_group = { .name = "uw_kbd_bl_color", .attrs = uw_kbd_bl_color_attrs }; static void uw_kbd_bl_init_set(void) { if (uniwill_kbd_bl_type_rgb_single_color) { // Reset keyboard backlight uniwill_write_kbd_bl_reset(); // Make sure reset finish before continue msleep(100); // Disable backlight while initializing // uniwill_write_kbd_bl_enable(0); // Update keyboard backlight according to the current state uniwill_write_kbd_bl_state(); } // Enable keyboard backlight uniwill_write_kbd_bl_enable(1); } // Keep track of previous colors on start, init array with different non-colors static u32 uw_prev_colors[] = {0x01000000, 0x02000000, 0x03000000}; static u32 uw_prev_colors_size = 3; static u32 uw_prev_colors_index = 0; // Timer for checking animation colors static struct timer_list uw_kbd_bl_init_timer; static volatile int uw_kbd_bl_check_count = 40; static int uw_kbd_bl_init_check_interval_ms = 500; static void uw_kbd_bl_init_ready_check_work_func(struct work_struct *work) { u8 uw_cur_red, uw_cur_green, uw_cur_blue; int i; bool prev_colors_same; uniwill_read_kbd_bl_rgb(&uw_cur_red, &uw_cur_green, &uw_cur_blue); uw_prev_colors[uw_prev_colors_index] = (uw_cur_red << 0x10) | (uw_cur_green << 0x08) | uw_cur_blue; uw_prev_colors_index = (uw_prev_colors_index + 1) % uw_prev_colors_size; prev_colors_same = true; for (i = 1; i < uw_prev_colors_size; ++i) { if (uw_prev_colors[i-1] != uw_prev_colors[i]) prev_colors_same = false; } if (prev_colors_same) { uw_kbd_bl_init_set(); del_timer(&uw_kbd_bl_init_timer); } else { if (uw_kbd_bl_check_count != 0) { mod_timer(&uw_kbd_bl_init_timer, jiffies + msecs_to_jiffies(uw_kbd_bl_init_check_interval_ms)); } else { TUXEDO_INFO("uw kbd init timeout, failed to detect end of boot animation\n"); del_timer(&uw_kbd_bl_init_timer); } } uw_kbd_bl_check_count -= 1; } static DECLARE_WORK(uw_kbd_bl_init_ready_check_work, uw_kbd_bl_init_ready_check_work_func); static void uw_kbd_bl_init_ready_check(struct timer_list *t) { schedule_work(&uw_kbd_bl_init_ready_check_work); } static int uw_kbd_bl_init(struct platform_device *dev) { int status = 0; uniwill_kbd_bl_type_rgb_single_color = false // New names | dmi_match(DMI_BOARD_NAME, "POLARIS1501A1650TI") | dmi_match(DMI_BOARD_NAME, "POLARIS1501A2060") | dmi_match(DMI_BOARD_NAME, "POLARIS1501I1650TI") | dmi_match(DMI_BOARD_NAME, "POLARIS1501I2060") | dmi_match(DMI_BOARD_NAME, "POLARIS1701A1650TI") | dmi_match(DMI_BOARD_NAME, "POLARIS1701A2060") | dmi_match(DMI_BOARD_NAME, "POLARIS1701I1650TI") | dmi_match(DMI_BOARD_NAME, "POLARIS1701I2060") #if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 18, 0) | dmi_match(DMI_PRODUCT_SKU, "POLARIS1XA02") | dmi_match(DMI_PRODUCT_SKU, "POLARIS1XI02") | dmi_match(DMI_PRODUCT_SKU, "POLARIS1XA03") | dmi_match(DMI_PRODUCT_SKU, "POLARIS1XI03") #endif // Old names // | dmi_match(DMI_BOARD_NAME, "Polaris15I01") // | dmi_match(DMI_BOARD_NAME, "Polaris17I01") // | dmi_match(DMI_BOARD_NAME, "Polaris15A01") // | dmi_match(DMI_BOARD_NAME, "Polaris1501I2060") // | dmi_match(DMI_BOARD_NAME, "Polaris1701I2060") ; #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 18, 0) TUXEDO_ERROR( "Warning: Kernel version less that 4.18, keyboard backlight might not be properly recognized."); #endif // Save previous enable state uniwill_kbd_bl_enable_state_on_start = uniwill_read_kbd_bl_enabled(); if (uniwill_kbd_bl_type_rgb_single_color) { // Initialize keyboard backlight driver state according to parameters if (param_brightness > UNIWILL_BRIGHTNESS_MAX) param_brightness = UNIWILL_BRIGHTNESS_DEFAULT; kbd_led_state_uw.brightness = param_brightness; if (color_lookup(&color_list, param_color) <= (u32) 0xffffff) kbd_led_state_uw.color = color_lookup(&color_list, param_color); else kbd_led_state_uw.color = UNIWILL_COLOR_DEFAULT; // Init sysfs bl attributes group status = sysfs_create_group(&dev->dev.kobj, &uw_kbd_bl_color_attr_group); if (status) TUXEDO_ERROR("Failed to create sysfs group\n"); // Start periodic checking of animation, set and enable bl when done timer_setup(&uw_kbd_bl_init_timer, uw_kbd_bl_init_ready_check, 0); mod_timer(&uw_kbd_bl_init_timer, jiffies + msecs_to_jiffies(uw_kbd_bl_init_check_interval_ms)); } else { // For non-RGB versions // Enable keyboard backlight immediately (should it be disabled) uniwill_write_kbd_bl_enable(1); } return status; } #define UNIWILL_LIGHTBAR_LED_MAX_BRIGHTNESS 0x24 #define UNIWILL_LIGHTBAR_LED_NAME_RGB_RED "lightbar_rgb:1:status" #define UNIWILL_LIGHTBAR_LED_NAME_RGB_GREEN "lightbar_rgb:2:status" #define UNIWILL_LIGHTBAR_LED_NAME_RGB_BLUE "lightbar_rgb:3:status" #define UNIWILL_LIGHTBAR_LED_NAME_ANIMATION "lightbar_animation::status" static void uniwill_write_lightbar_rgb(u8 red, u8 green, u8 blue) { if (red <= UNIWILL_LIGHTBAR_LED_MAX_BRIGHTNESS) { uniwill_write_ec_ram(0x0749, red); } if (green <= UNIWILL_LIGHTBAR_LED_MAX_BRIGHTNESS) { uniwill_write_ec_ram(0x074a, green); } if (blue <= UNIWILL_LIGHTBAR_LED_MAX_BRIGHTNESS) { uniwill_write_ec_ram(0x074b, blue); } } static int uniwill_read_lightbar_rgb(u8 *red, u8 *green, u8 *blue) { int status; uniwill_read_ec_ram(0x0749, red); uniwill_read_ec_ram(0x074a, green); uniwill_read_ec_ram(0x074b, blue); status = 0; return status; } static void uniwill_write_lightbar_animation(bool animation_status) { u8 value; uniwill_read_ec_ram(0x0748, &value); if (animation_status) { value |= 0x80; } else { value &= ~0x80; } uniwill_write_ec_ram(0x0748, value); } static int uniwill_read_lightbar_animation(bool *animation_status) { int status; u8 lightbar_animation_data; status = uniwill_read_ec_ram(0x0748, &lightbar_animation_data); *animation_status = (lightbar_animation_data & 0x80) > 0; return status; } static int lightbar_set_blocking(struct led_classdev *led_cdev, enum led_brightness brightness) { u8 red = 0xff, green = 0xff, blue = 0xff; bool led_red = strstr(led_cdev->name, UNIWILL_LIGHTBAR_LED_NAME_RGB_RED) != NULL; bool led_green = strstr(led_cdev->name, UNIWILL_LIGHTBAR_LED_NAME_RGB_GREEN) != NULL; bool led_blue = strstr(led_cdev->name, UNIWILL_LIGHTBAR_LED_NAME_RGB_BLUE) != NULL; bool led_animation = strstr(led_cdev->name, UNIWILL_LIGHTBAR_LED_NAME_ANIMATION) != NULL; if (led_red || led_green || led_blue) { if (led_red) { red = brightness; } else if (led_green) { green = brightness; } else if (led_blue) { blue = brightness; } uniwill_write_lightbar_rgb(red, green, blue); // Also make sure the animation is off uniwill_write_lightbar_animation(false); } else if (led_animation) { if (brightness == 1) { uniwill_write_lightbar_animation(true); } else { uniwill_write_lightbar_animation(false); } } return 0; } static enum led_brightness lightbar_get(struct led_classdev *led_cdev) { u8 red, green, blue; bool animation_status; bool led_red = strstr(led_cdev->name, UNIWILL_LIGHTBAR_LED_NAME_RGB_RED) != NULL; bool led_green = strstr(led_cdev->name, UNIWILL_LIGHTBAR_LED_NAME_RGB_GREEN) != NULL; bool led_blue = strstr(led_cdev->name, UNIWILL_LIGHTBAR_LED_NAME_RGB_BLUE) != NULL; bool led_animation = strstr(led_cdev->name, UNIWILL_LIGHTBAR_LED_NAME_ANIMATION) != NULL; if (led_red || led_green || led_blue) { uniwill_read_lightbar_rgb(&red, &green, &blue); if (led_red) { return red; } else if (led_green) { return green; } else if (led_blue) { return blue; } } else if (led_animation) { uniwill_read_lightbar_animation(&animation_status); return animation_status ? 1 : 0; } return 0; } static bool uw_lightbar_loaded; static struct led_classdev lightbar_led_classdevs[] = { { .name = UNIWILL_LIGHTBAR_LED_NAME_RGB_RED, .max_brightness = UNIWILL_LIGHTBAR_LED_MAX_BRIGHTNESS, .brightness_set_blocking = &lightbar_set_blocking, .brightness_get = &lightbar_get }, { .name = UNIWILL_LIGHTBAR_LED_NAME_RGB_GREEN, .max_brightness = UNIWILL_LIGHTBAR_LED_MAX_BRIGHTNESS, .brightness_set_blocking = &lightbar_set_blocking, .brightness_get = &lightbar_get }, { .name = UNIWILL_LIGHTBAR_LED_NAME_RGB_BLUE, .max_brightness = UNIWILL_LIGHTBAR_LED_MAX_BRIGHTNESS, .brightness_set_blocking = &lightbar_set_blocking, .brightness_get = &lightbar_get }, { .name = UNIWILL_LIGHTBAR_LED_NAME_ANIMATION, .max_brightness = 1, .brightness_set_blocking = &lightbar_set_blocking, .brightness_get = &lightbar_get } }; static int uw_lightbar_init(struct platform_device *dev) { int i, j, status; bool lightbar_supported = false || dmi_match(DMI_BOARD_NAME, "LAPQC71A") || dmi_match(DMI_BOARD_NAME, "LAPQC71B") || dmi_match(DMI_BOARD_NAME, "TRINITY1501I") || dmi_match(DMI_BOARD_NAME, "TRINITY1701I") || dmi_match(DMI_PRODUCT_NAME, "A60 MUV") #if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 18, 0) || dmi_match(DMI_PRODUCT_SKU, "STELLARIS1XI03") || dmi_match(DMI_PRODUCT_SKU, "STELLARIS1XA03") #endif ; #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 18, 0) TUXEDO_ERROR( "Warning: Kernel version less that 4.18, lightbar might not be properly recognized."); #endif if (!lightbar_supported) return -ENODEV; for (i = 0; i < ARRAY_SIZE(lightbar_led_classdevs); ++i) { status = led_classdev_register(&dev->dev, &lightbar_led_classdevs[i]); if (status < 0) { for (j = 0; j < i; j++) led_classdev_unregister(&lightbar_led_classdevs[j]); return status; } } return 0; } static int uw_lightbar_remove(struct platform_device *dev) { int i; for (i = 0; i < ARRAY_SIZE(lightbar_led_classdevs); ++i) { led_classdev_unregister(&lightbar_led_classdevs[i]); } return 0; } /*static int uniwill_keyboard_probe(struct platform_device *dev) { int status; // Look for for GUIDs used on uniwill devices status = wmi_has_guid(UNIWILL_WMI_EVENT_GUID_0) && wmi_has_guid(UNIWILL_WMI_EVENT_GUID_1) && wmi_has_guid(UNIWILL_WMI_EVENT_GUID_2) && wmi_has_guid(UNIWILL_WMI_MGMT_GUID_BA) && wmi_has_guid(UNIWILL_WMI_MGMT_GUID_BB) && wmi_has_guid(UNIWILL_WMI_MGMT_GUID_BC); if (!status) { TUXEDO_DEBUG("probe: At least one Uniwill GUID missing\n"); return -ENODEV; } // Attempt to add event handlers status = wmi_install_notify_handler(UNIWILL_WMI_EVENT_GUID_0, uniwill_wmi_notify0, NULL); if (ACPI_FAILURE(status)) { TUXEDO_ERROR("probe: Failed to install uniwill notify handler 0\n"); goto err_remove_notifiers; } status = wmi_install_notify_handler(UNIWILL_WMI_EVENT_GUID_1, uniwill_wmi_notify1, NULL); if (ACPI_FAILURE(status)) { TUXEDO_ERROR("probe: Failed to install uniwill notify handler 1\n"); goto err_remove_notifiers; } status = wmi_install_notify_handler(UNIWILL_WMI_EVENT_GUID_2, uniwill_wmi_notify2, NULL); if (ACPI_FAILURE(status)) { TUXEDO_ERROR("probe: Failed to install uniwill notify handler 2\n"); goto err_remove_notifiers; } status = register_keyboard_notifier(&keyboard_notifier_block); uw_kbd_bl_init(dev); status = uw_lightbar_init(dev); uw_lightbar_loaded = (status >= 0); return 0; err_remove_notifiers: wmi_remove_notify_handler(UNIWILL_WMI_EVENT_GUID_0); wmi_remove_notify_handler(UNIWILL_WMI_EVENT_GUID_1); wmi_remove_notify_handler(UNIWILL_WMI_EVENT_GUID_2); return -ENODEV; }*/ static int uniwill_keyboard_probe(struct platform_device *dev) { u32 i; u8 data; int status; // FIXME Hard set balanced profile until we have implemented a way to // switch it while tuxedo_io is loaded // uw_ec_write_addr(0x51, 0x07, 0x00, 0x00, ®_write_return); uniwill_write_ec_ram(0x0751, 0x00); // Set manual-mode fan-curve in 0x0743 - 0x0747 // Some kind of default fan-curve is stored in 0x0786 - 0x078a: Using it to initialize manual-mode fan-curve for (i = 0; i < 5; ++i) { uniwill_read_ec_ram(0x0786 + i, &data); uniwill_write_ec_ram(0x0743 + i, data); } // Enable manual mode uniwill_write_ec_ram(0x0741, 0x01); // Zero second fan temp for detection uniwill_write_ec_ram(0x044f, 0x00); status = register_keyboard_notifier(&keyboard_notifier_block); uw_kbd_bl_init(dev); status = uw_lightbar_init(dev); uw_lightbar_loaded = (status >= 0); return 0; } static int uniwill_keyboard_remove(struct platform_device *dev) { if (uniwill_kbd_bl_type_rgb_single_color) { sysfs_remove_group(&dev->dev.kobj, &uw_kbd_bl_color_attr_group); } // Restore previous backlight enable state if (uniwill_kbd_bl_enable_state_on_start != 0xff) { uniwill_write_kbd_bl_enable(uniwill_kbd_bl_enable_state_on_start); } unregister_keyboard_notifier(&keyboard_notifier_block); del_timer(&uw_kbd_bl_init_timer); if (uw_lightbar_loaded) uw_lightbar_remove(dev); // Disable manual mode uniwill_write_ec_ram(0x0741, 0x00); return 0; } static int uniwill_keyboard_suspend(struct platform_device *dev, pm_message_t state) { uniwill_write_kbd_bl_enable(0); return 0; } static int uniwill_keyboard_resume(struct platform_device *dev) { if (uniwill_kbd_bl_type_rgb_single_color) { uniwill_write_kbd_bl_reset(); msleep(100); uniwill_write_kbd_bl_state(); } uniwill_write_kbd_bl_enable(1); return 0; } static struct platform_driver platform_driver_uniwill = { .remove = uniwill_keyboard_remove, .suspend = uniwill_keyboard_suspend, .resume = uniwill_keyboard_resume, .driver = { .name = DRIVER_NAME, .owner = THIS_MODULE, }, }; struct tuxedo_keyboard_driver uniwill_keyboard_driver = { .platform_driver = &platform_driver_uniwill, .probe = uniwill_keyboard_probe, .key_map = uniwill_wmi_keymap, };