Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Hans de Goede | 2330 | 89.82% | 35 | 92.11% |
Kate Hsuan | 223 | 8.60% | 2 | 5.26% |
Lubomir Rintel | 41 | 1.58% | 1 | 2.63% |
Total | 2594 | 38 |
// SPDX-License-Identifier: GPL-2.0-or-later /* * DMI based code to deal with broken DSDTs on X86 tablets which ship with * Android as (part of) the factory image. The factory kernels shipped on these * devices typically have a bunch of things hardcoded, rather than specified * in their DSDT. * * Copyright (C) 2021-2023 Hans de Goede <hdegoede@redhat.com> */ #include <linux/acpi.h> #include <linux/gpio/machine.h> #include <linux/input.h> #include <linux/leds.h> #include <linux/platform_device.h> #include <linux/pwm.h> #include <dt-bindings/leds/common.h> #include "shared-psy-info.h" #include "x86-android-tablets.h" /* Acer Iconia One 7 B1-750 has an Android factory img with everything hardcoded */ static const char * const acer_b1_750_mount_matrix[] = { "-1", "0", "0", "0", "1", "0", "0", "0", "1" }; static const struct property_entry acer_b1_750_bma250e_props[] = { PROPERTY_ENTRY_STRING_ARRAY("mount-matrix", acer_b1_750_mount_matrix), { } }; static const struct software_node acer_b1_750_bma250e_node = { .properties = acer_b1_750_bma250e_props, }; static const struct x86_i2c_client_info acer_b1_750_i2c_clients[] __initconst = { { /* Novatek NVT-ts touchscreen */ .board_info = { .type = "NVT-ts", .addr = 0x34, .dev_name = "NVT-ts", }, .adapter_path = "\\_SB_.I2C4", .irq_data = { .type = X86_ACPI_IRQ_TYPE_GPIOINT, .chip = "INT33FC:02", .index = 3, .trigger = ACPI_EDGE_SENSITIVE, .polarity = ACPI_ACTIVE_LOW, .con_id = "NVT-ts_irq", }, }, { /* BMA250E accelerometer */ .board_info = { .type = "bma250e", .addr = 0x18, .swnode = &acer_b1_750_bma250e_node, }, .adapter_path = "\\_SB_.I2C3", .irq_data = { .type = X86_ACPI_IRQ_TYPE_GPIOINT, .chip = "INT33FC:02", .index = 25, .trigger = ACPI_LEVEL_SENSITIVE, .polarity = ACPI_ACTIVE_HIGH, .con_id = "bma250e_irq", }, }, }; static struct gpiod_lookup_table acer_b1_750_nvt_ts_gpios = { .dev_id = "i2c-NVT-ts", .table = { GPIO_LOOKUP("INT33FC:01", 26, "reset", GPIO_ACTIVE_LOW), { } }, }; static struct gpiod_lookup_table * const acer_b1_750_gpios[] = { &acer_b1_750_nvt_ts_gpios, &int3496_reference_gpios, NULL }; const struct x86_dev_info acer_b1_750_info __initconst = { .i2c_client_info = acer_b1_750_i2c_clients, .i2c_client_count = ARRAY_SIZE(acer_b1_750_i2c_clients), .pdev_info = int3496_pdevs, .pdev_count = 1, .gpiod_lookup_tables = acer_b1_750_gpios, }; /* * Advantech MICA-071 * This is a standard Windows tablet, but it has an extra "quick launch" button * which is not described in the ACPI tables in anyway. * Use the x86-android-tablets infra to create a gpio-button device for this. */ static const struct x86_gpio_button advantech_mica_071_button __initconst = { .button = { .code = KEY_PROG1, .active_low = true, .desc = "prog1_key", .type = EV_KEY, .wakeup = false, .debounce_interval = 50, }, .chip = "INT33FC:00", .pin = 2, }; const struct x86_dev_info advantech_mica_071_info __initconst = { .gpio_button = &advantech_mica_071_button, .gpio_button_count = 1, }; /* * When booted with the BIOS set to Android mode the Chuwi Hi8 (CWI509) DSDT * contains a whole bunch of bogus ACPI I2C devices and is missing entries * for the touchscreen and the accelerometer. */ static const struct property_entry chuwi_hi8_gsl1680_props[] = { PROPERTY_ENTRY_U32("touchscreen-size-x", 1665), PROPERTY_ENTRY_U32("touchscreen-size-y", 1140), PROPERTY_ENTRY_BOOL("touchscreen-swapped-x-y"), PROPERTY_ENTRY_BOOL("silead,home-button"), PROPERTY_ENTRY_STRING("firmware-name", "gsl1680-chuwi-hi8.fw"), { } }; static const struct software_node chuwi_hi8_gsl1680_node = { .properties = chuwi_hi8_gsl1680_props, }; static const char * const chuwi_hi8_mount_matrix[] = { "1", "0", "0", "0", "-1", "0", "0", "0", "1" }; static const struct property_entry chuwi_hi8_bma250e_props[] = { PROPERTY_ENTRY_STRING_ARRAY("mount-matrix", chuwi_hi8_mount_matrix), { } }; static const struct software_node chuwi_hi8_bma250e_node = { .properties = chuwi_hi8_bma250e_props, }; static const struct x86_i2c_client_info chuwi_hi8_i2c_clients[] __initconst = { { /* Silead touchscreen */ .board_info = { .type = "gsl1680", .addr = 0x40, .swnode = &chuwi_hi8_gsl1680_node, }, .adapter_path = "\\_SB_.I2C4", .irq_data = { .type = X86_ACPI_IRQ_TYPE_APIC, .index = 0x44, .trigger = ACPI_EDGE_SENSITIVE, .polarity = ACPI_ACTIVE_HIGH, }, }, { /* BMA250E accelerometer */ .board_info = { .type = "bma250e", .addr = 0x18, .swnode = &chuwi_hi8_bma250e_node, }, .adapter_path = "\\_SB_.I2C3", .irq_data = { .type = X86_ACPI_IRQ_TYPE_GPIOINT, .chip = "INT33FC:02", .index = 23, .trigger = ACPI_LEVEL_SENSITIVE, .polarity = ACPI_ACTIVE_HIGH, .con_id = "bma250e_irq", }, }, }; static int __init chuwi_hi8_init(struct device *dev) { /* * Avoid the acpi_unregister_gsi() call in x86_acpi_irq_helper_get() * breaking the touchscreen + logging various errors when the Windows * BIOS is used. */ if (acpi_dev_present("MSSL0001", NULL, 1)) return -ENODEV; return 0; } const struct x86_dev_info chuwi_hi8_info __initconst = { .i2c_client_info = chuwi_hi8_i2c_clients, .i2c_client_count = ARRAY_SIZE(chuwi_hi8_i2c_clients), .init = chuwi_hi8_init, }; /* * Cyberbook T116 Android version * This comes in both Windows and Android versions and even on Android * the DSDT is mostly sane. This tablet has 2 extra general purpose buttons * in the button row with the power + volume-buttons labeled P and F. * Use the x86-android-tablets infra to create a gpio-button device for these. */ static const struct x86_gpio_button cyberbook_t116_buttons[] __initconst = { { .button = { .code = KEY_PROG1, .active_low = true, .desc = "prog1_key", .type = EV_KEY, .wakeup = false, .debounce_interval = 50, }, .chip = "INT33FF:00", .pin = 30, }, { .button = { .code = KEY_PROG2, .active_low = true, .desc = "prog2_key", .type = EV_KEY, .wakeup = false, .debounce_interval = 50, }, .chip = "INT33FF:03", .pin = 48, }, }; const struct x86_dev_info cyberbook_t116_info __initconst = { .gpio_button = cyberbook_t116_buttons, .gpio_button_count = ARRAY_SIZE(cyberbook_t116_buttons), }; #define CZC_EC_EXTRA_PORT 0x68 #define CZC_EC_ANDROID_KEYS 0x63 static int __init czc_p10t_init(struct device *dev) { /* * The device boots up in "Windows 7" mode, when the home button sends a * Windows specific key sequence (Left Meta + D) and the second button * sends an unknown one while also toggling the Radio Kill Switch. * This is a surprising behavior when the second button is labeled "Back". * * The vendor-supplied Android-x86 build switches the device to a "Android" * mode by writing value 0x63 to the I/O port 0x68. This just seems to just * set bit 6 on address 0x96 in the EC region; switching the bit directly * seems to achieve the same result. It uses a "p10t_switcher" to do the * job. It doesn't seem to be able to do anything else, and no other use * of the port 0x68 is known. * * In the Android mode, the home button sends just a single scancode, * which can be handled in Linux userspace more reasonably and the back * button only sends a scancode without toggling the kill switch. * The scancode can then be mapped either to Back or RF Kill functionality * in userspace, depending on how the button is labeled on that particular * model. */ outb(CZC_EC_ANDROID_KEYS, CZC_EC_EXTRA_PORT); return 0; } const struct x86_dev_info czc_p10t __initconst = { .init = czc_p10t_init, }; /* Medion Lifetab S10346 tablets have an Android factory img with everything hardcoded */ static const char * const medion_lifetab_s10346_accel_mount_matrix[] = { "0", "1", "0", "1", "0", "0", "0", "0", "1" }; static const struct property_entry medion_lifetab_s10346_accel_props[] = { PROPERTY_ENTRY_STRING_ARRAY("mount-matrix", medion_lifetab_s10346_accel_mount_matrix), { } }; static const struct software_node medion_lifetab_s10346_accel_node = { .properties = medion_lifetab_s10346_accel_props, }; /* Note the LCD panel is mounted upside down, this is correctly indicated in the VBT */ static const struct property_entry medion_lifetab_s10346_touchscreen_props[] = { PROPERTY_ENTRY_BOOL("touchscreen-inverted-x"), PROPERTY_ENTRY_BOOL("touchscreen-swapped-x-y"), { } }; static const struct software_node medion_lifetab_s10346_touchscreen_node = { .properties = medion_lifetab_s10346_touchscreen_props, }; static const struct x86_i2c_client_info medion_lifetab_s10346_i2c_clients[] __initconst = { { /* kxtj21009 accel */ .board_info = { .type = "kxtj21009", .addr = 0x0f, .dev_name = "kxtj21009", .swnode = &medion_lifetab_s10346_accel_node, }, .adapter_path = "\\_SB_.I2C3", .irq_data = { .type = X86_ACPI_IRQ_TYPE_GPIOINT, .chip = "INT33FC:02", .index = 23, .trigger = ACPI_EDGE_SENSITIVE, .polarity = ACPI_ACTIVE_HIGH, .con_id = "kxtj21009_irq", }, }, { /* goodix touchscreen */ .board_info = { .type = "GDIX1001:00", .addr = 0x14, .dev_name = "goodix_ts", .swnode = &medion_lifetab_s10346_touchscreen_node, }, .adapter_path = "\\_SB_.I2C4", .irq_data = { .type = X86_ACPI_IRQ_TYPE_APIC, .index = 0x44, .trigger = ACPI_EDGE_SENSITIVE, .polarity = ACPI_ACTIVE_LOW, }, }, }; static struct gpiod_lookup_table medion_lifetab_s10346_goodix_gpios = { .dev_id = "i2c-goodix_ts", .table = { GPIO_LOOKUP("INT33FC:01", 26, "reset", GPIO_ACTIVE_HIGH), GPIO_LOOKUP("INT33FC:02", 3, "irq", GPIO_ACTIVE_HIGH), { } }, }; static struct gpiod_lookup_table * const medion_lifetab_s10346_gpios[] = { &medion_lifetab_s10346_goodix_gpios, NULL }; const struct x86_dev_info medion_lifetab_s10346_info __initconst = { .i2c_client_info = medion_lifetab_s10346_i2c_clients, .i2c_client_count = ARRAY_SIZE(medion_lifetab_s10346_i2c_clients), .gpiod_lookup_tables = medion_lifetab_s10346_gpios, }; /* Nextbook Ares 8 (BYT) tablets have an Android factory img with everything hardcoded */ static const char * const nextbook_ares8_accel_mount_matrix[] = { "0", "-1", "0", "-1", "0", "0", "0", "0", "1" }; static const struct property_entry nextbook_ares8_accel_props[] = { PROPERTY_ENTRY_STRING_ARRAY("mount-matrix", nextbook_ares8_accel_mount_matrix), { } }; static const struct software_node nextbook_ares8_accel_node = { .properties = nextbook_ares8_accel_props, }; static const struct property_entry nextbook_ares8_touchscreen_props[] = { PROPERTY_ENTRY_U32("touchscreen-size-x", 800), PROPERTY_ENTRY_U32("touchscreen-size-y", 1280), { } }; static const struct software_node nextbook_ares8_touchscreen_node = { .properties = nextbook_ares8_touchscreen_props, }; static const struct x86_i2c_client_info nextbook_ares8_i2c_clients[] __initconst = { { /* Freescale MMA8653FC accel */ .board_info = { .type = "mma8653", .addr = 0x1d, .dev_name = "mma8653", .swnode = &nextbook_ares8_accel_node, }, .adapter_path = "\\_SB_.I2C3", }, { /* FT5416DQ9 touchscreen controller */ .board_info = { .type = "edt-ft5x06", .addr = 0x38, .dev_name = "ft5416", .swnode = &nextbook_ares8_touchscreen_node, }, .adapter_path = "\\_SB_.I2C4", .irq_data = { .type = X86_ACPI_IRQ_TYPE_GPIOINT, .chip = "INT33FC:02", .index = 3, .trigger = ACPI_EDGE_SENSITIVE, .polarity = ACPI_ACTIVE_LOW, .con_id = "ft5416_irq", }, }, }; static struct gpiod_lookup_table * const nextbook_ares8_gpios[] = { &int3496_reference_gpios, NULL }; const struct x86_dev_info nextbook_ares8_info __initconst = { .i2c_client_info = nextbook_ares8_i2c_clients, .i2c_client_count = ARRAY_SIZE(nextbook_ares8_i2c_clients), .pdev_info = int3496_pdevs, .pdev_count = 1, .gpiod_lookup_tables = nextbook_ares8_gpios, }; /* Nextbook Ares 8A (CHT) tablets have an Android factory img with everything hardcoded */ static const char * const nextbook_ares8a_accel_mount_matrix[] = { "1", "0", "0", "0", "-1", "0", "0", "0", "1" }; static const struct property_entry nextbook_ares8a_accel_props[] = { PROPERTY_ENTRY_STRING_ARRAY("mount-matrix", nextbook_ares8a_accel_mount_matrix), { } }; static const struct software_node nextbook_ares8a_accel_node = { .properties = nextbook_ares8a_accel_props, }; static const struct x86_i2c_client_info nextbook_ares8a_i2c_clients[] __initconst = { { /* Freescale MMA8653FC accel */ .board_info = { .type = "mma8653", .addr = 0x1d, .dev_name = "mma8653", .swnode = &nextbook_ares8a_accel_node, }, .adapter_path = "\\_SB_.PCI0.I2C3", }, { /* FT5416DQ9 touchscreen controller */ .board_info = { .type = "edt-ft5x06", .addr = 0x38, .dev_name = "ft5416", .swnode = &nextbook_ares8_touchscreen_node, }, .adapter_path = "\\_SB_.PCI0.I2C6", .irq_data = { .type = X86_ACPI_IRQ_TYPE_GPIOINT, .chip = "INT33FF:01", .index = 17, .trigger = ACPI_EDGE_SENSITIVE, .polarity = ACPI_ACTIVE_LOW, .con_id = "ft5416_irq", }, }, }; static struct gpiod_lookup_table nextbook_ares8a_ft5416_gpios = { .dev_id = "i2c-ft5416", .table = { GPIO_LOOKUP("INT33FF:01", 25, "reset", GPIO_ACTIVE_LOW), { } }, }; static struct gpiod_lookup_table * const nextbook_ares8a_gpios[] = { &nextbook_ares8a_ft5416_gpios, NULL }; const struct x86_dev_info nextbook_ares8a_info __initconst = { .i2c_client_info = nextbook_ares8a_i2c_clients, .i2c_client_count = ARRAY_SIZE(nextbook_ares8a_i2c_clients), .gpiod_lookup_tables = nextbook_ares8a_gpios, }; /* * Peaq C1010 * This is a standard Windows tablet, but it has a special Dolby button. * This button has a WMI interface, but that is broken. Instead of trying to * use the broken WMI interface, instantiate a gpio_keys device for this. */ static const struct x86_gpio_button peaq_c1010_button __initconst = { .button = { .code = KEY_SOUND, .active_low = true, .desc = "dolby_key", .type = EV_KEY, .wakeup = false, .debounce_interval = 50, }, .chip = "INT33FC:00", .pin = 3, }; const struct x86_dev_info peaq_c1010_info __initconst = { .gpio_button = &peaq_c1010_button, .gpio_button_count = 1, }; /* * Whitelabel (sold as various brands) TM800A550L tablets. * These tablet's DSDT contains a whole bunch of bogus ACPI I2C devices * (removed through acpi_quirk_skip_i2c_client_enumeration()) and * the touchscreen fwnode has the wrong GPIOs. */ static const char * const whitelabel_tm800a550l_accel_mount_matrix[] = { "-1", "0", "0", "0", "1", "0", "0", "0", "1" }; static const struct property_entry whitelabel_tm800a550l_accel_props[] = { PROPERTY_ENTRY_STRING_ARRAY("mount-matrix", whitelabel_tm800a550l_accel_mount_matrix), { } }; static const struct software_node whitelabel_tm800a550l_accel_node = { .properties = whitelabel_tm800a550l_accel_props, }; static const struct property_entry whitelabel_tm800a550l_goodix_props[] = { PROPERTY_ENTRY_STRING("firmware-name", "gt912-tm800a550l.fw"), PROPERTY_ENTRY_STRING("goodix,config-name", "gt912-tm800a550l.cfg"), PROPERTY_ENTRY_U32("goodix,main-clk", 54), { } }; static const struct software_node whitelabel_tm800a550l_goodix_node = { .properties = whitelabel_tm800a550l_goodix_props, }; static const struct x86_i2c_client_info whitelabel_tm800a550l_i2c_clients[] __initconst = { { /* goodix touchscreen */ .board_info = { .type = "GDIX1001:00", .addr = 0x14, .dev_name = "goodix_ts", .swnode = &whitelabel_tm800a550l_goodix_node, }, .adapter_path = "\\_SB_.I2C2", .irq_data = { .type = X86_ACPI_IRQ_TYPE_APIC, .index = 0x44, .trigger = ACPI_EDGE_SENSITIVE, .polarity = ACPI_ACTIVE_HIGH, }, }, { /* kxcj91008 accel */ .board_info = { .type = "kxcj91008", .addr = 0x0f, .dev_name = "kxcj91008", .swnode = &whitelabel_tm800a550l_accel_node, }, .adapter_path = "\\_SB_.I2C3", }, }; static struct gpiod_lookup_table whitelabel_tm800a550l_goodix_gpios = { .dev_id = "i2c-goodix_ts", .table = { GPIO_LOOKUP("INT33FC:01", 26, "reset", GPIO_ACTIVE_HIGH), GPIO_LOOKUP("INT33FC:02", 3, "irq", GPIO_ACTIVE_HIGH), { } }, }; static struct gpiod_lookup_table * const whitelabel_tm800a550l_gpios[] = { &whitelabel_tm800a550l_goodix_gpios, NULL }; const struct x86_dev_info whitelabel_tm800a550l_info __initconst = { .i2c_client_info = whitelabel_tm800a550l_i2c_clients, .i2c_client_count = ARRAY_SIZE(whitelabel_tm800a550l_i2c_clients), .gpiod_lookup_tables = whitelabel_tm800a550l_gpios, }; /* * The fwnode for ktd2026 on Xaomi pad2. It composed of a RGB LED node * with three subnodes for each color (B/G/R). The RGB LED node is named * "multi-led" to align with the name in the device tree. */ /* main fwnode for ktd2026 */ static const struct software_node ktd2026_node = { .name = "ktd2026", }; static const struct property_entry ktd2026_rgb_led_props[] = { PROPERTY_ENTRY_U32("reg", 0), PROPERTY_ENTRY_U32("color", LED_COLOR_ID_RGB), PROPERTY_ENTRY_STRING("label", "mipad2:rgb:indicator"), PROPERTY_ENTRY_STRING("linux,default-trigger", "bq27520-0-charging-orange-full-green"), { } }; static const struct software_node ktd2026_rgb_led_node = { .name = "multi-led", .properties = ktd2026_rgb_led_props, .parent = &ktd2026_node, }; static const struct property_entry ktd2026_blue_led_props[] = { PROPERTY_ENTRY_U32("reg", 0), PROPERTY_ENTRY_U32("color", LED_COLOR_ID_BLUE), { } }; static const struct software_node ktd2026_blue_led_node = { .properties = ktd2026_blue_led_props, .parent = &ktd2026_rgb_led_node, }; static const struct property_entry ktd2026_green_led_props[] = { PROPERTY_ENTRY_U32("reg", 1), PROPERTY_ENTRY_U32("color", LED_COLOR_ID_GREEN), { } }; static const struct software_node ktd2026_green_led_node = { .properties = ktd2026_green_led_props, .parent = &ktd2026_rgb_led_node, }; static const struct property_entry ktd2026_red_led_props[] = { PROPERTY_ENTRY_U32("reg", 2), PROPERTY_ENTRY_U32("color", LED_COLOR_ID_RED), { } }; static const struct software_node ktd2026_red_led_node = { .properties = ktd2026_red_led_props, .parent = &ktd2026_rgb_led_node, }; static const struct software_node *ktd2026_node_group[] = { &ktd2026_node, &ktd2026_rgb_led_node, &ktd2026_red_led_node, &ktd2026_green_led_node, &ktd2026_blue_led_node, NULL }; /* * For the LEDs which backlight the menu / home / back capacitive buttons on * the bottom bezel. These are attached to a TPS61158 LED controller which * is controlled by the "pwm_soc_lpss_2" PWM output. */ #define XIAOMI_MIPAD2_LED_PERIOD_NS 19200 #define XIAOMI_MIPAD2_LED_DEFAULT_DUTY 6000 /* From Android kernel */ static struct pwm_device *xiaomi_mipad2_led_pwm; static int xiaomi_mipad2_brightness_set(struct led_classdev *led_cdev, enum led_brightness val) { struct pwm_state state = { .period = XIAOMI_MIPAD2_LED_PERIOD_NS, .duty_cycle = val, /* Always set PWM enabled to avoid the pin floating */ .enabled = true, }; return pwm_apply_might_sleep(xiaomi_mipad2_led_pwm, &state); } static int __init xiaomi_mipad2_init(struct device *dev) { struct led_classdev *led_cdev; int ret; xiaomi_mipad2_led_pwm = devm_pwm_get(dev, "pwm_soc_lpss_2"); if (IS_ERR(xiaomi_mipad2_led_pwm)) return dev_err_probe(dev, PTR_ERR(xiaomi_mipad2_led_pwm), "getting pwm\n"); led_cdev = devm_kzalloc(dev, sizeof(*led_cdev), GFP_KERNEL); if (!led_cdev) return -ENOMEM; led_cdev->name = "mipad2:white:touch-buttons-backlight"; led_cdev->max_brightness = XIAOMI_MIPAD2_LED_PERIOD_NS; /* "input-events" trigger uses blink_brightness */ led_cdev->blink_brightness = XIAOMI_MIPAD2_LED_DEFAULT_DUTY; led_cdev->default_trigger = "input-events"; led_cdev->brightness_set_blocking = xiaomi_mipad2_brightness_set; ret = devm_led_classdev_register(dev, led_cdev); if (ret) return dev_err_probe(dev, ret, "registering LED\n"); return software_node_register_node_group(ktd2026_node_group); } static void xiaomi_mipad2_exit(void) { software_node_unregister_node_group(ktd2026_node_group); } /* * If the EFI bootloader is not Xiaomi's own signed Android loader, then the * Xiaomi Mi Pad 2 X86 tablet sets OSID in the DSDT to 1 (Windows), causing * a bunch of devices to be hidden. * * This takes care of instantiating the hidden devices manually. */ static const struct x86_i2c_client_info xiaomi_mipad2_i2c_clients[] __initconst = { { /* BQ27520 fuel-gauge */ .board_info = { .type = "bq27520", .addr = 0x55, .dev_name = "bq27520", .swnode = &fg_bq25890_supply_node, }, .adapter_path = "\\_SB_.PCI0.I2C1", }, { /* KTD2026 RGB notification LED controller */ .board_info = { .type = "ktd2026", .addr = 0x30, .dev_name = "ktd2026", .swnode = &ktd2026_node, }, .adapter_path = "\\_SB_.PCI0.I2C3", }, }; const struct x86_dev_info xiaomi_mipad2_info __initconst = { .i2c_client_info = xiaomi_mipad2_i2c_clients, .i2c_client_count = ARRAY_SIZE(xiaomi_mipad2_i2c_clients), .init = xiaomi_mipad2_init, .exit = xiaomi_mipad2_exit, };
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