/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "gpio.h" #include /* GPIO to schematics names */ #define GPIO_AP_EDP_BKLTEN GPIO(DGI_D5) #define GPIO_BL_PWM_1V8 GPIO(DISP_PWM0) #define GPIO_EDP_HPD_1V8 GPIO(GPIO_07) #define GPIO_EN_PP3300_DISP_X GPIO(I2SO1_D2) DEFINE_BITFIELD(MSDC0_DRV, 29, 0) DEFINE_BITFIELD(MSDC1_DRV, 17, 0) DEFINE_BITFIELD(MSDC1_GPIO_MODE0_0, 26, 24) DEFINE_BITFIELD(MSDC1_GPIO_MODE0_1, 30, 28) DEFINE_BITFIELD(MSDC1_GPIO_MODE1_0, 2, 0) DEFINE_BITFIELD(MSDC1_GPIO_MODE1_1, 6, 4) DEFINE_BITFIELD(MSDC1_GPIO_MODE1_2, 10, 8) DEFINE_BITFIELD(MSDC1_GPIO_MODE1_3, 14, 12) #define MSDC0_BASE 0x11230000 #define MSDC0_TOP_BASE 0x11f50000 #define MSDC0_DRV_VALUE 0x1b6db6db #define MSDC1_DRV_VALUE 0x1b6db #define MSDC1_GPIO_MODE0_VALUE 0x1 #define MSDC1_GPIO_MODE1_VALUE 0x1 enum { MSDC1_GPIO_MODE0_BASE = 0x100053d0, MSDC1_GPIO_MODE1_BASE = 0x100053e0, }; static void register_reset_to_bl31(void) { static struct bl_aux_param_gpio param_reset = { .h = { .type = BL_AUX_PARAM_MTK_RESET_GPIO }, .gpio = { .polarity = ARM_TF_GPIO_LEVEL_HIGH }, }; param_reset.gpio.index = GPIO_RESET.id; register_bl31_aux_param(¶m_reset.h); } static void configure_emmc(void) { void *gpio_base = (void *)IOCFG_TL_BASE; int i; const gpio_t emmc_pu_pin[] = { GPIO(EMMC_DAT0), GPIO(EMMC_DAT1), GPIO(EMMC_DAT2), GPIO(EMMC_DAT3), GPIO(EMMC_DAT4), GPIO(EMMC_DAT5), GPIO(EMMC_DAT6), GPIO(EMMC_DAT7), GPIO(EMMC_CMD), GPIO(EMMC_RSTB), }; const gpio_t emmc_pd_pin[] = { GPIO(EMMC_DSL), GPIO(EMMC_CLK), }; for (i = 0; i < ARRAY_SIZE(emmc_pu_pin); i++) gpio_set_pull(emmc_pu_pin[i], GPIO_PULL_ENABLE, GPIO_PULL_UP); for (i = 0; i < ARRAY_SIZE(emmc_pd_pin); i++) gpio_set_pull(emmc_pd_pin[i], GPIO_PULL_ENABLE, GPIO_PULL_DOWN); /* set eMMC cmd/dat/clk/ds/rstb pins driving to 8mA */ SET32_BITFIELDS(gpio_base, MSDC0_DRV, MSDC0_DRV_VALUE); mtk_emmc_early_init((void *)MSDC0_BASE, (void *)MSDC0_TOP_BASE); } static void configure_sdcard(void) { void *gpio_base = (void *)IOCFG_RB_BASE; void *gpio_mode0_base = (void *)MSDC1_GPIO_MODE0_BASE; void *gpio_mode1_base = (void *)MSDC1_GPIO_MODE1_BASE; int i; const gpio_t sdcard_pu_pin[] = { GPIO(MSDC1_DAT0), GPIO(MSDC1_DAT1), GPIO(MSDC1_DAT2), GPIO(MSDC1_DAT3), GPIO(MSDC1_CMD), }; const gpio_t sdcard_pd_pin[] = { GPIO(MSDC1_CLK), }; for (i = 0; i < ARRAY_SIZE(sdcard_pu_pin); i++) gpio_set_pull(sdcard_pu_pin[i], GPIO_PULL_ENABLE, GPIO_PULL_UP); for (i = 0; i < ARRAY_SIZE(sdcard_pd_pin); i++) gpio_set_pull(sdcard_pd_pin[i], GPIO_PULL_ENABLE, GPIO_PULL_DOWN); /* set sdcard cmd/dat/clk pins driving to 8mA */ SET32_BITFIELDS(gpio_base, MSDC1_DRV, MSDC1_DRV_VALUE); /* set sdcard dat2/dat0/dat3/cmd/clk pins to msdc1 mode */ SET32_BITFIELDS(gpio_mode0_base, MSDC1_GPIO_MODE0_0, MSDC1_GPIO_MODE0_VALUE, MSDC1_GPIO_MODE0_1, MSDC1_GPIO_MODE0_VALUE); /* set sdcard dat1 pin to msdc1 mode */ SET32_BITFIELDS(gpio_mode1_base, MSDC1_GPIO_MODE1_0, MSDC1_GPIO_MODE1_VALUE, MSDC1_GPIO_MODE1_1, MSDC1_GPIO_MODE1_VALUE, MSDC1_GPIO_MODE1_2, MSDC1_GPIO_MODE1_VALUE, MSDC1_GPIO_MODE1_3, MSDC1_GPIO_MODE1_VALUE); mtk_i2c_bus_init(I2C7); if (CONFIG(BOARD_GOOGLE_CHERRY)) mt6360_init(I2C7); mainboard_enable_regulator(MTK_REGULATOR_VCCQ, 1); mainboard_enable_regulator(MTK_REGULATOR_VCC, 1); } /* Set up backlight control pins as output pin and power-off by default */ static void configure_panel_backlight(void) { gpio_output(GPIO_AP_EDP_BKLTEN, 0); gpio_output(GPIO_BL_PWM_1V8, 0); } static void power_on_panel(void) { /* Default power sequence for most panels. */ gpio_set_pull(GPIO_EDP_HPD_1V8, GPIO_PULL_ENABLE, GPIO_PULL_UP); gpio_set_mode(GPIO_EDP_HPD_1V8, 2); gpio_output(GPIO_EN_PP3300_DISP_X, 1); } static bool configure_display(void) { struct edid edid; struct fb_info *info; const char *name; printk(BIOS_INFO, "%s: Starting display initialization\n", __func__); mtcmos_display_power_on(); mtcmos_protect_display_bus(); configure_panel_backlight(); power_on_panel(); mtk_ddp_init(); mdelay(200); if (mtk_edp_init(&edid) < 0) { printk(BIOS_ERR, "%s: Failed to initialize eDP\n", __func__); return false; } name = edid.ascii_string; if (name[0] == '\0') name = "unknown name"; printk(BIOS_INFO, "%s: '%s %s' %dx%d@%dHz\n", __func__, edid.manufacturer_name, name, edid.mode.ha, edid.mode.va, edid.mode.refresh); edid_set_framebuffer_bits_per_pixel(&edid, 32, 0); mtk_ddp_mode_set(&edid); info = fb_new_framebuffer_info_from_edid(&edid, (uintptr_t)0); if (info) fb_set_orientation(info, LB_FB_ORIENTATION_NORMAL); return true; } static void mainboard_init(struct device *dev) { if (display_init_required()) configure_display(); else printk(BIOS_INFO, "%s: Skipped display initialization\n", __func__); configure_emmc(); configure_sdcard(); setup_usb_host(); /* for audio usage */ if (CONFIG(CHERRY_USE_RT1011)) mtk_i2c_bus_init(I2C2); if (dpm_init()) printk(BIOS_ERR, "dpm init failed, DVFS may not work\n"); if (spm_init()) printk(BIOS_ERR, "spm init failed, system suspend may not work\n"); register_reset_to_bl31(); } static void mainboard_enable(struct device *dev) { dev->ops->init = &mainboard_init; } struct chip_operations mainboard_ops = { .name = CONFIG_MAINBOARD_PART_NUMBER, .enable_dev = mainboard_enable, };