/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include #include #include #include "display.h" #include "gpio.h" #include "panel.h" #define PMIC_TPS65132_I2C I2C3 static void configure_mipi_pwm_backlight(void) { gpio_output(GPIO_AP_DISP_BKLTEN, 0); gpio_output(GPIO_MIPI_BL_PWM_1V8, 0); } static void configure_edp_backlight(void) { gpio_output(GPIO_AP_DISP_BKLTEN, 0); } static void power_on_mipi_boe_tv110c9m_ll0(void) { const struct tps65132s_reg_setting reg_settings[] = { { PMIC_TPS65132_VPOS, 0x11, 0x1f }, { PMIC_TPS65132_VNEG, 0x11, 0x1f }, { PMIC_TPS65132_DLYX, 0x95, 0xff }, { PMIC_TPS65132_ASSDD, 0x5b, 0xff }, }; const struct tps65132s_cfg cfg = { .i2c_bus = PMIC_TPS65132_I2C, .en = GPIO_EN_PPVAR_MIPI_DISP, .sync = GPIO_EN_PPVAR_MIPI_DISP_150MA, .settings = reg_settings, .setting_counts = ARRAY_SIZE(reg_settings), }; /* Enable VM18V */ mainboard_enable_regulator(MTK_REGULATOR_VDD18, true); if (tps65132s_setup(&cfg) != CB_SUCCESS) printk(BIOS_ERR, "Failed to set up voltage regulator tps65132s\n"); gpio_output(GPIO_DISP_RST_1V8_L, 0); mdelay(1); gpio_output(GPIO_DISP_RST_1V8_L, 1); mdelay(1); gpio_output(GPIO_DISP_RST_1V8_L, 0); mdelay(1); gpio_output(GPIO_DISP_RST_1V8_L, 1); mdelay(6); } static void power_on_edp_samsung_atana33xc20(void) { gpio_output(GPIO_EN_PP3300_EDP_DISP_X, 1); gpio_set_pull(GPIO_EDP_HPD_1V8, GPIO_PULL_ENABLE, GPIO_PULL_UP); gpio_set_mode(GPIO_EDP_HPD_1V8, 4); } static struct panel_description panels[] = { [1] = { .name = "BOE_TV110C9M_LL0", .power_on = power_on_mipi_boe_tv110c9m_ll0, .configure_panel_backlight = configure_mipi_pwm_backlight, .disp_path = DISP_PATH_MIPI, .pwm_ctrl_gpio = true, }, [11] = { .name = "SAMSUNG_ATANA33XC20", .power_on = power_on_edp_samsung_atana33xc20, .configure_panel_backlight = configure_edp_backlight, .disp_path = DISP_PATH_EDP, .pwm_ctrl_gpio = false, }, }; struct panel_description *get_panel_description(uint32_t panel_id) { /* Only PANEL_ID_LOW_CHANNEL value is valid for the reference board. */ uint32_t id = panel_id & 0xF; if (id >= ARRAY_SIZE(panels)) return NULL; return &panels[id]; } void fill_lp_backlight_gpios(struct lb_gpios *gpios) { struct panel_description *panel = get_active_panel(); if (!panel || panel->disp_path == DISP_PATH_NONE) return; struct lb_gpio mipi_pwm_gpios[] = { {GPIO_MIPI_BL_PWM_1V8.id, ACTIVE_HIGH, -1, "PWM control"}, }; struct lb_gpio edp_pwm_gpios[] = { {GPIO_EDP_BL_PWM_1V8.id, ACTIVE_HIGH, -1, "PWM control"}, }; if (panel->pwm_ctrl_gpio) { /* PWM control for typical eDP and MIPI panels */ if (panel->disp_path == DISP_PATH_MIPI) lb_add_gpios(gpios, mipi_pwm_gpios, ARRAY_SIZE(mipi_pwm_gpios)); else lb_add_gpios(gpios, edp_pwm_gpios, ARRAY_SIZE(edp_pwm_gpios)); } struct lb_gpio backlight_gpios[] = { {GPIO_AP_DISP_BKLTEN.id, ACTIVE_HIGH, -1, "backlight enable"}, }; lb_add_gpios(gpios, backlight_gpios, ARRAY_SIZE(backlight_gpios)); }