/* * arch/arm/mach-tegra/board-kai.c * * Copyright (c) 2012, NVIDIA CORPORATION. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * This program 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "board.h" #include "clock.h" #include "board-kai.h" #include "board-touch.h" #include "devices.h" #include "gpio-names.h" #include "fuse.h" #include "pm.h" #include "wdt-recovery.h" static struct balanced_throttle throttle_list[] = { { .id = BALANCED_THROTTLE_ID_TJ, .throt_tab_size = 10, .throt_tab = { { 0, 1000 }, { 640000, 1000 }, { 640000, 1000 }, { 640000, 1000 }, { 640000, 1000 }, { 640000, 1000 }, { 760000, 1000 }, { 760000, 1050 }, {1000000, 1050 }, {1000000, 1100 }, }, }, #ifdef CONFIG_TEGRA_SKIN_THROTTLE { .id = BALANCED_THROTTLE_ID_SKIN, .throt_tab_size = 6, .throt_tab = { { 640000, 1200 }, { 640000, 1200 }, { 760000, 1200 }, { 760000, 1200 }, {1000000, 1200 }, {1000000, 1200 }, }, }, #endif }; /* All units are in millicelsius */ static struct tegra_thermal_data thermal_data = { .shutdown_device_id = THERMAL_DEVICE_ID_NCT_EXT, .temp_shutdown = 90000, #if defined(CONFIG_TEGRA_EDP_LIMITS) || defined(CONFIG_TEGRA_THERMAL_THROTTLE) .throttle_edp_device_id = THERMAL_DEVICE_ID_NCT_EXT, #endif #ifdef CONFIG_TEGRA_EDP_LIMITS .edp_offset = TDIODE_OFFSET, /* edp based on tdiode */ .hysteresis_edp = 3000, #endif #ifdef CONFIG_TEGRA_THERMAL_THROTTLE .temp_throttle = 85000, .tc1 = 0, .tc2 = 1, .passive_delay = 2000, #endif #ifdef CONFIG_TEGRA_SKIN_THROTTLE .skin_device_id = THERMAL_DEVICE_ID_SKIN, .temp_throttle_skin = 43000, #endif }; /* wl128x BT, FM, GPS connectivity chip */ struct ti_st_plat_data kai_wilink_pdata = { .nshutdown_gpio = TEGRA_GPIO_PU0, .dev_name = BLUETOOTH_UART_DEV_NAME, .flow_cntrl = 1, .baud_rate = 3000000, }; static struct platform_device wl128x_device = { .name = "kim", .id = -1, .dev.platform_data = &kai_wilink_pdata, }; static struct platform_device btwilink_device = { .name = "btwilink", .id = -1, }; static noinline void __init kai_bt_st(void) { pr_info("kai_bt_st"); platform_device_register(&wl128x_device); platform_device_register(&btwilink_device); } static struct resource kai_bluesleep_resources[] = { [0] = { .name = "gpio_host_wake", .start = TEGRA_GPIO_PU6, .end = TEGRA_GPIO_PU6, .flags = IORESOURCE_IO, }, [1] = { .name = "host_wake", .start = TEGRA_GPIO_TO_IRQ(TEGRA_GPIO_PU6), .end = TEGRA_GPIO_TO_IRQ(TEGRA_GPIO_PU6), .flags = IORESOURCE_IRQ | IORESOURCE_IRQ_HIGHEDGE, }, }; static struct platform_device kai_bluesleep_device = { .name = "bluesleep", .id = 0, .num_resources = ARRAY_SIZE(kai_bluesleep_resources), .resource = kai_bluesleep_resources, }; static noinline void __init kai_tegra_setup_tibluesleep(void) { platform_device_register(&kai_bluesleep_device); } static __initdata struct tegra_clk_init_table kai_clk_init_table[] = { /* name parent rate enabled */ { "pll_m", NULL, 0, false}, { "hda", "pll_p", 108000000, false}, { "hda2codec_2x", "pll_p", 48000000, false}, { "pwm", "pll_p", 3187500, false}, { "blink", "clk_32k", 32768, true}, { "i2s1", "pll_a_out0", 0, false}, { "i2s3", "pll_a_out0", 0, false}, { "i2s4", "pll_a_out0", 0, false}, { "spdif_out", "pll_a_out0", 0, false}, { "d_audio", "clk_m", 12000000, false}, { "dam0", "clk_m", 12000000, false}, { "dam1", "clk_m", 12000000, false}, { "dam2", "clk_m", 12000000, false}, { "audio1", "i2s1_sync", 0, false}, { "audio3", "i2s3_sync", 0, false}, { "vi_sensor", "pll_p", 150000000, false}, { "i2c1", "pll_p", 3200000, false}, { "i2c2", "pll_p", 3200000, false}, { "i2c3", "pll_p", 3200000, false}, { "i2c4", "pll_p", 3200000, false}, { "i2c5", "pll_p", 3200000, false}, { NULL, NULL, 0, 0}, }; static struct pn544_i2c_platform_data nfc_pdata = { .irq_gpio = TEGRA_GPIO_PX0, .ven_gpio = TEGRA_GPIO_PS7, .firm_gpio = TEGRA_GPIO_PR3, }; static struct i2c_board_info __initdata kai_nfc_board_info[] = { { I2C_BOARD_INFO("pn544", 0x28), .platform_data = &nfc_pdata, .irq = TEGRA_GPIO_TO_IRQ(TEGRA_GPIO_PX0), }, }; static struct tegra_i2c_platform_data kai_i2c1_platform_data = { .adapter_nr = 0, .bus_count = 1, .bus_clk_rate = { 100000, 0 }, .scl_gpio = {TEGRA_GPIO_PC4, 0}, .sda_gpio = {TEGRA_GPIO_PC5, 0}, .arb_recovery = arb_lost_recovery, }; static struct tegra_i2c_platform_data kai_i2c2_platform_data = { .adapter_nr = 1, .bus_count = 1, .bus_clk_rate = { 100000, 0 }, .is_clkon_always = true, .scl_gpio = {TEGRA_GPIO_PT5, 0}, .sda_gpio = {TEGRA_GPIO_PT6, 0}, .arb_recovery = arb_lost_recovery, }; static struct tegra_i2c_platform_data kai_i2c3_platform_data = { .adapter_nr = 2, .bus_count = 1, .bus_clk_rate = { 100000, 0 }, .scl_gpio = {TEGRA_GPIO_PBB1, 0}, .sda_gpio = {TEGRA_GPIO_PBB2, 0}, .arb_recovery = arb_lost_recovery, }; static struct tegra_i2c_platform_data kai_i2c4_platform_data = { .adapter_nr = 3, .bus_count = 1, .bus_clk_rate = { 10000, 0 }, .scl_gpio = {TEGRA_GPIO_PV4, 0}, .sda_gpio = {TEGRA_GPIO_PV5, 0}, .arb_recovery = arb_lost_recovery, }; static struct tegra_i2c_platform_data kai_i2c5_platform_data = { .adapter_nr = 4, .bus_count = 1, .bus_clk_rate = { 400000, 0 }, .scl_gpio = {TEGRA_GPIO_PZ6, 0}, .sda_gpio = {TEGRA_GPIO_PZ7, 0}, .arb_recovery = arb_lost_recovery, }; struct max17048_battery_model max17048_mdata = { .rcomp = 170, .soccheck_A = 252, .soccheck_B = 254, .bits = 19, .alert_threshold = 0x00, .one_percent_alerts = 0x40, .alert_on_reset = 0x40, .rcomp_seg = 0x0800, .hibernate = 0x3080, .vreset = 0x9696, .valert = 0xD4AA, .ocvtest = 55600, }; static struct at24_platform_data eeprom_info = { .byte_len = (256*1024)/8, .page_size = 64, .flags = AT24_FLAG_ADDR16, .setup = get_mac_addr, }; static struct i2c_board_info kai_i2c4_max17048_board_info[] = { { I2C_BOARD_INFO("max17048", 0x36), .platform_data = &max17048_mdata, }, }; static struct i2c_board_info kai_eeprom_mac_add = { I2C_BOARD_INFO("at24", 0x56), .platform_data = &eeprom_info, }; static struct regulator_consumer_supply smb349_vbus_supply[] = { REGULATOR_SUPPLY("usb_bat_chg", NULL), }; static struct regulator_consumer_supply smb349_otg_vbus_supply[] = { REGULATOR_SUPPLY("usb_vbus_otg", NULL), }; static struct smb349_charger_platform_data smb349_charger_pdata = { .max_charge_current_mA = 1000, .charging_term_current_mA = 100, .consumer_supplies = smb349_vbus_supply, .num_consumer_supplies = ARRAY_SIZE(smb349_vbus_supply), .otg_consumer_supplies = smb349_otg_vbus_supply, .num_otg_consumer_supplies = ARRAY_SIZE(smb349_otg_vbus_supply), }; static struct i2c_board_info kai_i2c4_smb349_board_info[] = { { I2C_BOARD_INFO("smb349", 0x1B), .platform_data = &smb349_charger_pdata, }, }; static struct i2c_board_info __initdata rt5640_board_info = { I2C_BOARD_INFO("rt5640", 0x1c), .irq = TEGRA_GPIO_TO_IRQ(TEGRA_GPIO_CDC_IRQ), }; static struct i2c_board_info __initdata rt5639_board_info = { I2C_BOARD_INFO("rt5639", 0x1c), .irq = TEGRA_GPIO_TO_IRQ(TEGRA_GPIO_CDC_IRQ), }; static void kai_i2c_init(void) { struct board_info board_info; tegra_get_board_info(&board_info); tegra_i2c_device1.dev.platform_data = &kai_i2c1_platform_data; tegra_i2c_device2.dev.platform_data = &kai_i2c2_platform_data; tegra_i2c_device3.dev.platform_data = &kai_i2c3_platform_data; tegra_i2c_device4.dev.platform_data = &kai_i2c4_platform_data; tegra_i2c_device5.dev.platform_data = &kai_i2c5_platform_data; platform_device_register(&tegra_i2c_device5); platform_device_register(&tegra_i2c_device4); platform_device_register(&tegra_i2c_device3); platform_device_register(&tegra_i2c_device2); platform_device_register(&tegra_i2c_device1); i2c_register_board_info(4, kai_i2c4_smb349_board_info, ARRAY_SIZE(kai_i2c4_smb349_board_info)); if (board_info.fab == BOARD_FAB_A00) i2c_register_board_info(4, &rt5640_board_info, 1); else i2c_register_board_info(4, &rt5639_board_info, 1); i2c_register_board_info(4, &kai_eeprom_mac_add, 1); i2c_register_board_info(4, kai_i2c4_max17048_board_info, ARRAY_SIZE(kai_i2c4_max17048_board_info)); i2c_register_board_info(0, kai_nfc_board_info, 1); } static struct platform_device *kai_uart_devices[] __initdata = { &tegra_uarta_device, &tegra_uartb_device, &tegra_uartc_device, &tegra_uartd_device, &tegra_uarte_device, }; static struct uart_clk_parent uart_parent_clk[] = { [0] = {.name = "clk_m"}, [1] = {.name = "pll_p"}, #ifndef CONFIG_TEGRA_PLLM_RESTRICTED [2] = {.name = "pll_m"}, #endif }; static struct tegra_uart_platform_data kai_uart_pdata; static struct tegra_uart_platform_data kai_loopback_uart_pdata; static void __init uart_debug_init(void) { int debug_port_id; debug_port_id = get_tegra_uart_debug_port_id(); if (debug_port_id < 0) debug_port_id = 3; switch (debug_port_id) { case 0: /* UARTA is the debug port. */ pr_info("Selecting UARTA as the debug console\n"); kai_uart_devices[0] = &debug_uarta_device; debug_uart_clk = clk_get_sys("serial8250.0", "uarta"); debug_uart_port_base = ((struct plat_serial8250_port *)( debug_uarta_device.dev.platform_data))->mapbase; break; case 1: /* UARTB is the debug port. */ pr_info("Selecting UARTB as the debug console\n"); kai_uart_devices[1] = &debug_uartb_device; debug_uart_clk = clk_get_sys("serial8250.0", "uartb"); debug_uart_port_base = ((struct plat_serial8250_port *)( debug_uartb_device.dev.platform_data))->mapbase; break; case 2: /* UARTC is the debug port. */ pr_info("Selecting UARTC as the debug console\n"); kai_uart_devices[2] = &debug_uartc_device; debug_uart_clk = clk_get_sys("serial8250.0", "uartc"); debug_uart_port_base = ((struct plat_serial8250_port *)( debug_uartc_device.dev.platform_data))->mapbase; break; case 3: /* UARTD is the debug port. */ pr_info("Selecting UARTD as the debug console\n"); kai_uart_devices[3] = &debug_uartd_device; debug_uart_clk = clk_get_sys("serial8250.0", "uartd"); debug_uart_port_base = ((struct plat_serial8250_port *)( debug_uartd_device.dev.platform_data))->mapbase; break; case 4: /* UARTE is the debug port. */ pr_info("Selecting UARTE as the debug console\n"); kai_uart_devices[4] = &debug_uarte_device; debug_uart_clk = clk_get_sys("serial8250.0", "uarte"); debug_uart_port_base = ((struct plat_serial8250_port *)( debug_uarte_device.dev.platform_data))->mapbase; break; default: pr_info("The debug console id %d is invalid, Assuming UARTA", debug_port_id); kai_uart_devices[0] = &debug_uarta_device; debug_uart_clk = clk_get_sys("serial8250.0", "uarta"); debug_uart_port_base = ((struct plat_serial8250_port *)( debug_uarta_device.dev.platform_data))->mapbase; break; } } static void __init kai_uart_init(void) { struct clk *c; int i; for (i = 0; i < ARRAY_SIZE(uart_parent_clk); ++i) { c = tegra_get_clock_by_name(uart_parent_clk[i].name); if (IS_ERR_OR_NULL(c)) { pr_err("Not able to get the clock for %s\n", uart_parent_clk[i].name); continue; } uart_parent_clk[i].parent_clk = c; uart_parent_clk[i].fixed_clk_rate = clk_get_rate(c); } kai_uart_pdata.parent_clk_list = uart_parent_clk; kai_uart_pdata.parent_clk_count = ARRAY_SIZE(uart_parent_clk); kai_loopback_uart_pdata.parent_clk_list = uart_parent_clk; kai_loopback_uart_pdata.parent_clk_count = ARRAY_SIZE(uart_parent_clk); kai_loopback_uart_pdata.is_loopback = true; tegra_uarta_device.dev.platform_data = &kai_uart_pdata; tegra_uartb_device.dev.platform_data = &kai_uart_pdata; tegra_uartc_device.dev.platform_data = &kai_uart_pdata; tegra_uartd_device.dev.platform_data = &kai_uart_pdata; /* UARTE is used for loopback test purpose */ tegra_uarte_device.dev.platform_data = &kai_loopback_uart_pdata; /* Register low speed only if it is selected */ if (!is_tegra_debug_uartport_hs()) { uart_debug_init(); /* Clock enable for the debug channel */ if (!IS_ERR_OR_NULL(debug_uart_clk)) { pr_info("The debug console clock name is %s\n", debug_uart_clk->name); c = tegra_get_clock_by_name("pll_p"); if (IS_ERR_OR_NULL(c)) pr_err("Not getting the parent clock pll_p\n"); else clk_set_parent(debug_uart_clk, c); clk_enable(debug_uart_clk); clk_set_rate(debug_uart_clk, clk_get_rate(c)); } else { pr_err("Not getting the clock %s for debug console\n", debug_uart_clk->name); } } platform_add_devices(kai_uart_devices, ARRAY_SIZE(kai_uart_devices)); } static struct platform_device tegra_camera = { .name = "tegra_camera", .id = -1, }; static struct platform_device *kai_spi_devices[] __initdata = { &tegra_spi_device1, }; static struct spi_clk_parent spi_parent_clk[] = { [0] = {.name = "pll_p"}, #ifndef CONFIG_TEGRA_PLLM_RESTRICTED [1] = {.name = "pll_m"}, [2] = {.name = "clk_m"}, #else [1] = {.name = "clk_m"}, #endif }; static struct tegra_spi_platform_data kai_spi1_pdata = { .is_dma_based = true, .max_dma_buffer = (128), .is_clkon_always = false, .max_rate = 100000000, }; static void __init kai_spi_init(void) { int i; struct clk *c; for (i = 0; i < ARRAY_SIZE(spi_parent_clk); ++i) { c = tegra_get_clock_by_name(spi_parent_clk[i].name); if (IS_ERR_OR_NULL(c)) { pr_err("Not able to get the clock for %s\n", spi_parent_clk[i].name); continue; } spi_parent_clk[i].parent_clk = c; spi_parent_clk[i].fixed_clk_rate = clk_get_rate(c); } kai_spi1_pdata.parent_clk_list = spi_parent_clk; kai_spi1_pdata.parent_clk_count = ARRAY_SIZE(spi_parent_clk); tegra_spi_device1.dev.platform_data = &kai_spi1_pdata; platform_add_devices(kai_spi_devices, ARRAY_SIZE(kai_spi_devices)); } static struct resource tegra_rtc_resources[] = { [0] = { .start = TEGRA_RTC_BASE, .end = TEGRA_RTC_BASE + TEGRA_RTC_SIZE - 1, .flags = IORESOURCE_MEM, }, [1] = { .start = INT_RTC, .end = INT_RTC, .flags = IORESOURCE_IRQ, }, }; static struct platform_device tegra_rtc_device = { .name = "tegra_rtc", .id = -1, .resource = tegra_rtc_resources, .num_resources = ARRAY_SIZE(tegra_rtc_resources), }; static struct tegra_asoc_platform_data kai_audio_pdata = { .gpio_spkr_en = TEGRA_GPIO_SPKR_EN, .gpio_hp_det = TEGRA_GPIO_HP_DET, .gpio_hp_mute = -1, .gpio_int_mic_en = TEGRA_GPIO_INT_MIC_EN, .gpio_ext_mic_en = TEGRA_GPIO_EXT_MIC_EN, .i2s_param[HIFI_CODEC] = { .audio_port_id = 0, .is_i2s_master = 1, .i2s_mode = TEGRA_DAIFMT_I2S, }, .i2s_param[BASEBAND] = { .audio_port_id = -1, }, .i2s_param[BT_SCO] = { .audio_port_id = 3, .is_i2s_master = 1, .i2s_mode = TEGRA_DAIFMT_DSP_A, }, }; static struct platform_device kai_audio_device = { .name = "tegra-snd-rt5640", .id = 0, .dev = { .platform_data = &kai_audio_pdata, }, }; static struct gpio_led kai_led_info[] = { { .name = "statled", .default_trigger = "default-on", .gpio = TEGRA_GPIO_STAT_LED, .active_low = 1, .retain_state_suspended = 0, .default_state = LEDS_GPIO_DEFSTATE_OFF, }, }; static struct gpio_led_platform_data kai_leds_pdata = { .leds = kai_led_info, .num_leds = ARRAY_SIZE(kai_led_info), }; static struct platform_device kai_leds_gpio_device = { .name = "leds-gpio", .id = -1, .dev = { .platform_data = &kai_leds_pdata, }, }; static struct platform_device *kai_devices[] __initdata = { &tegra_pmu_device, &tegra_rtc_device, &tegra_udc_device, #if defined(CONFIG_TEGRA_IOVMM_SMMU) || defined(CONFIG_TEGRA_IOMMU_SMMU) &tegra_smmu_device, #endif &tegra_wdt0_device, &tegra_wdt1_device, &tegra_wdt2_device, #if defined(CONFIG_TEGRA_AVP) &tegra_avp_device, #endif &tegra_camera, #if defined(CONFIG_CRYPTO_DEV_TEGRA_SE) &tegra_se_device, #endif &tegra_ahub_device, &tegra_dam_device0, &tegra_dam_device1, &tegra_dam_device2, &tegra_i2s_device1, &tegra_i2s_device3, &tegra_i2s_device4, &tegra_spdif_device, &spdif_dit_device, &bluetooth_dit_device, &tegra_pcm_device, &kai_audio_device, &kai_leds_gpio_device, &tegra_hda_device, #if defined(CONFIG_CRYPTO_DEV_TEGRA_AES) &tegra_aes_device, #endif }; static __initdata struct tegra_clk_init_table spi_clk_init_table[] = { /* name parent rate enabled */ { "sbc1", "pll_p", 52000000, true}, { NULL, NULL, 0, 0}, }; static __initdata struct tegra_clk_init_table touch_clk_init_table[] = { /* name parent rate enabled */ { "extern3", "pll_p", 41000000, true}, { "clk_out_3", "extern3", 40800000, true}, { NULL, NULL, 0, 0}, }; static int __init kai_touch_init(void) { int touch_id; gpio_request(KAI_TS_ID1, "touch-id1"); gpio_direction_input(KAI_TS_ID1); gpio_request(KAI_TS_ID2, "touch-id2"); gpio_direction_input(KAI_TS_ID2); touch_id = gpio_get_value(KAI_TS_ID1) << 1; touch_id |= gpio_get_value(KAI_TS_ID2); pr_info("touch-id %d\n", touch_id); /* Disable TS_ID GPIO to save power */ gpio_direction_output(KAI_TS_ID1, 0); tegra_pinmux_set_pullupdown(KAI_TS_ID1_PG, TEGRA_PUPD_NORMAL); tegra_pinmux_set_tristate(KAI_TS_ID1_PG, TEGRA_TRI_TRISTATE); gpio_direction_output(KAI_TS_ID2, 0); tegra_pinmux_set_pullupdown(KAI_TS_ID2_PG, TEGRA_PUPD_NORMAL); tegra_pinmux_set_tristate(KAI_TS_ID2_PG, TEGRA_TRI_TRISTATE); switch (touch_id) { case 0: pr_info("Raydium PCB based touch init\n"); tegra_clk_init_from_table(spi_clk_init_table); touch_init_raydium(TEGRA_GPIO_PZ3, TEGRA_GPIO_PN5, 0); break; case 1: pr_info("Raydium On-Board touch init\n"); tegra_clk_init_from_table(spi_clk_init_table); tegra_clk_init_from_table(touch_clk_init_table); clk_enable(tegra_get_clock_by_name("clk_out_3")); touch_init_raydium(TEGRA_GPIO_PZ3, TEGRA_GPIO_PN5, 1); break; case 3: pr_info("Synaptics PCB based touch init\n"); touch_init_synaptics_kai(); break; default: pr_err("touch_id error, no touch %d\n", touch_id); } return 0; } static struct tegra_usb_platform_data tegra_udc_pdata = { .port_otg = true, .has_hostpc = true, .phy_intf = TEGRA_USB_PHY_INTF_UTMI, .op_mode = TEGRA_USB_OPMODE_DEVICE, .u_data.dev = { .vbus_pmu_irq = 0, .vbus_gpio = -1, .charging_supported = false, .remote_wakeup_supported = false, }, .u_cfg.utmi = { .hssync_start_delay = 0, .elastic_limit = 16, .idle_wait_delay = 17, .term_range_adj = 6, .xcvr_setup = 8, .xcvr_lsfslew = 2, .xcvr_lsrslew = 2, .xcvr_setup_offset = 0, .xcvr_use_fuses = 1, }, }; static struct tegra_usb_platform_data tegra_ehci1_utmi_pdata = { .port_otg = true, .has_hostpc = true, .phy_intf = TEGRA_USB_PHY_INTF_UTMI, .op_mode = TEGRA_USB_OPMODE_HOST, .u_data.host = { .vbus_gpio = -1, .vbus_reg = "usb_vbus_otg", .hot_plug = true, .remote_wakeup_supported = true, .power_off_on_suspend = true, }, .u_cfg.utmi = { .hssync_start_delay = 0, .elastic_limit = 16, .idle_wait_delay = 17, .term_range_adj = 6, .xcvr_setup = 15, .xcvr_lsfslew = 2, .xcvr_lsrslew = 2, .xcvr_setup_offset = 0, .xcvr_use_fuses = 1, }, }; static struct tegra_usb_platform_data tegra_ehci2_utmi_pdata = { .port_otg = false, .has_hostpc = true, .phy_intf = TEGRA_USB_PHY_INTF_UTMI, .op_mode = TEGRA_USB_OPMODE_HOST, .u_data.host = { .vbus_gpio = -1, .vbus_reg = NULL, .hot_plug = false, .remote_wakeup_supported = true, .power_off_on_suspend = true, }, .u_cfg.utmi = { .hssync_start_delay = 0, .elastic_limit = 16, .idle_wait_delay = 17, .term_range_adj = 6, .xcvr_setup = 8, .xcvr_lsfslew = 2, .xcvr_lsrslew = 2, .xcvr_setup_offset = 0, .xcvr_use_fuses = 1, }, }; static struct tegra_usb_otg_data tegra_otg_pdata = { .ehci_device = &tegra_ehci1_device, .ehci_pdata = &tegra_ehci1_utmi_pdata, }; #if CONFIG_USB_SUPPORT static void kai_usb_init(void) { tegra_otg_device.dev.platform_data = &tegra_otg_pdata; platform_device_register(&tegra_otg_device); /* Setup the udc platform data */ tegra_udc_device.dev.platform_data = &tegra_udc_pdata; tegra_ehci2_device.dev.platform_data = &tegra_ehci2_utmi_pdata; platform_device_register(&tegra_ehci2_device); } static void kai_modem_init(void) { int ret; ret = gpio_request(TEGRA_GPIO_W_DISABLE, "w_disable_gpio"); if (ret < 0) pr_err("%s: gpio_request failed for gpio %d\n", __func__, TEGRA_GPIO_W_DISABLE); else gpio_direction_output(TEGRA_GPIO_W_DISABLE, 1); ret = gpio_request(TEGRA_GPIO_MODEM_RSVD1, "Port_V_PIN_0"); if (ret < 0) pr_err("%s: gpio_request failed for gpio %d\n", __func__, TEGRA_GPIO_MODEM_RSVD1); else gpio_direction_input(TEGRA_GPIO_MODEM_RSVD1); ret = gpio_request(TEGRA_GPIO_MODEM_RSVD2, "Port_H_PIN_7"); if (ret < 0) pr_err("%s: gpio_request failed for gpio %d\n", __func__, TEGRA_GPIO_MODEM_RSVD2); else gpio_direction_output(TEGRA_GPIO_MODEM_RSVD2, 1); } #else static void kai_usb_init(void) { } static void kai_modem_init(void) { } #endif static void kai_audio_init(void) { struct board_info board_info; tegra_get_board_info(&board_info); if (board_info.fab == BOARD_FAB_A01) { kai_audio_pdata.codec_name = "rt5639.4-001c"; kai_audio_pdata.codec_dai_name = "rt5639-aif1"; } else if (board_info.fab == BOARD_FAB_A00) { kai_audio_pdata.codec_name = "rt5640.4-001c"; kai_audio_pdata.codec_dai_name = "rt5640-aif1"; } } static void __init tegra_kai_init(void) { tegra_thermal_init(&thermal_data, throttle_list, ARRAY_SIZE(throttle_list)); tegra_clk_init_from_table(kai_clk_init_table); kai_pinmux_init(); kai_i2c_init(); kai_spi_init(); kai_usb_init(); #ifdef CONFIG_TEGRA_EDP_LIMITS kai_edp_init(); #endif kai_uart_init(); kai_audio_init(); platform_add_devices(kai_devices, ARRAY_SIZE(kai_devices)); tegra_ram_console_debug_init(); tegra_io_dpd_init(); kai_sdhci_init(); kai_regulator_init(); kai_suspend_init(); kai_touch_init(); kai_keys_init(); kai_panel_init(); kai_tegra_setup_tibluesleep(); kai_bt_st(); kai_sensors_init(); kai_pins_state_init(); kai_emc_init(); tegra_release_bootloader_fb(); kai_modem_init(); #ifdef CONFIG_TEGRA_WDT_RECOVERY tegra_wdt_recovery_init(); #endif tegra_serial_debug_init(TEGRA_UARTD_BASE, INT_WDT_CPU, NULL, -1, -1); } static void __init kai_ramconsole_reserve(unsigned long size) { tegra_ram_console_debug_reserve(SZ_1M); } static void __init tegra_kai_reserve(void) { #if defined(CONFIG_NVMAP_CONVERT_CARVEOUT_TO_IOVMM) /* support 1920X1200 with 24bpp */ tegra_reserve(0, SZ_8M + SZ_1M, SZ_8M + SZ_1M); #else tegra_reserve(SZ_128M, SZ_8M, SZ_8M); #endif kai_ramconsole_reserve(SZ_1M); } MACHINE_START(KAI, "kai") .boot_params = 0x80000100, .map_io = tegra_map_common_io, .reserve = tegra_kai_reserve, .init_early = tegra_init_early, .init_irq = tegra_init_irq, .timer = &tegra_timer, .init_machine = tegra_kai_init, MACHINE_END