/* * arch/arm/mach-tegra/board-pluto-power.c * * Copyright (C) 2012-2013 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 "cpu-tegra.h" #include "pm.h" #include "board.h" #include "board-common.h" #include "board-pluto.h" #include "board-pmu-defines.h" #include "tegra_cl_dvfs.h" #include "devices.h" #include "tegra11_soctherm.h" #include "tegra3_tsensor.h" #define PMC_CTRL 0x0 #define PMC_CTRL_INTR_LOW (1 << 17) /************************ Pluto based regulator ****************/ static struct regulator_consumer_supply palmas_smps123_supply[] = { REGULATOR_SUPPLY("vdd_cpu", NULL), }; static struct regulator_consumer_supply palmas_smps45_supply[] = { REGULATOR_SUPPLY("vdd_core", NULL), }; static struct regulator_consumer_supply palmas_smps6_supply[] = { REGULATOR_SUPPLY("vdd_core_bb", NULL), }; static struct regulator_consumer_supply palmas_smps7_supply[] = { REGULATOR_SUPPLY("vddio_ddr", NULL), REGULATOR_SUPPLY("vddio_lpddr3", NULL), REGULATOR_SUPPLY("vcore2_lpddr3", NULL), REGULATOR_SUPPLY("vcore_audio_1v2", NULL), }; static struct regulator_consumer_supply palmas_smps8_supply[] = { REGULATOR_SUPPLY("avdd_usb_pll", "tegra-udc.0"), REGULATOR_SUPPLY("avdd_usb_pll", "tegra-ehci.0"), REGULATOR_SUPPLY("avdd_usb_pll", "tegra-ehci.1"), REGULATOR_SUPPLY("avdd_osc", NULL), REGULATOR_SUPPLY("vddio_sys", NULL), REGULATOR_SUPPLY("vddio_bb", NULL), REGULATOR_SUPPLY("pwrdet_bb", NULL), REGULATOR_SUPPLY("vddio_sdmmc", "sdhci-tegra.0"), REGULATOR_SUPPLY("pwrdet_sdmmc1", NULL), REGULATOR_SUPPLY("vddio_sdmmc", "sdhci-tegra.3"), REGULATOR_SUPPLY("vdd_emmc", "sdhci-tegra.3"), REGULATOR_SUPPLY("pwrdet_sdmmc4", NULL), REGULATOR_SUPPLY("vddio_audio", NULL), REGULATOR_SUPPLY("pwrdet_audio", NULL), REGULATOR_SUPPLY("vddio_uart", NULL), REGULATOR_SUPPLY("pwrdet_uart", NULL), REGULATOR_SUPPLY("vddio_gmi", NULL), REGULATOR_SUPPLY("pwrdet_nand", NULL), REGULATOR_SUPPLY("vddio_cam", "vi"), REGULATOR_SUPPLY("pwrdet_cam", NULL), REGULATOR_SUPPLY("vdd_gps", NULL), REGULATOR_SUPPLY("vdd_nfc", NULL), REGULATOR_SUPPLY("vlogic", "0-0069"), REGULATOR_SUPPLY("vdd_dtv", NULL), REGULATOR_SUPPLY("vdd_bb", NULL), REGULATOR_SUPPLY("vcore1_lpddr", NULL), REGULATOR_SUPPLY("vcore_lpddr", NULL), REGULATOR_SUPPLY("vddio_lpddr", NULL), REGULATOR_SUPPLY("vdd_rf", NULL), REGULATOR_SUPPLY("vdd_modem2", NULL), REGULATOR_SUPPLY("vdd_dbg", NULL), REGULATOR_SUPPLY("vdd_sim_1v8", NULL), REGULATOR_SUPPLY("vdd_sim1a_1v8", NULL), REGULATOR_SUPPLY("vdd_sim1b_1v8", NULL), REGULATOR_SUPPLY("dvdd_audio", NULL), REGULATOR_SUPPLY("avdd_audio", NULL), REGULATOR_SUPPLY("vdd_com_1v8", NULL), REGULATOR_SUPPLY("vdd_bt_1v8", NULL), REGULATOR_SUPPLY("dvdd", "spi3.2"), REGULATOR_SUPPLY("avdd_pll_bb", NULL), }; static struct regulator_consumer_supply palmas_smps9_supply[] = { REGULATOR_SUPPLY("vddio_sd_slot", "sdhci-tegra.3"), REGULATOR_SUPPLY("vdd_sim_mmc", NULL), REGULATOR_SUPPLY("vdd_sim1a_mmc", NULL), REGULATOR_SUPPLY("vdd_sim1b_mmc", NULL), }; static struct regulator_consumer_supply palmas_smps10_supply[] = { REGULATOR_SUPPLY("unused_smps10", NULL), REGULATOR_SUPPLY("usb_vbus", "tegra-ehci.0"), REGULATOR_SUPPLY("avddio_usb", "tegra-xhci"), REGULATOR_SUPPLY("usb_vbus", "tegra-xhci"), REGULATOR_SUPPLY("vdd_vbrtr", NULL), REGULATOR_SUPPLY("vdd_lcd", NULL), }; static struct regulator_consumer_supply palmas_ldo1_supply[] = { REGULATOR_SUPPLY("avdd_hdmi_pll", "tegradc.1"), REGULATOR_SUPPLY("avdd_csi_dsi_pll", "tegradc.0"), REGULATOR_SUPPLY("avdd_csi_dsi_pll", "tegradc.1"), REGULATOR_SUPPLY("avdd_csi_dsi_pll", "vi"), REGULATOR_SUPPLY("avdd_pllm", NULL), REGULATOR_SUPPLY("avdd_pllu", NULL), REGULATOR_SUPPLY("avdd_plla_p_c", NULL), REGULATOR_SUPPLY("avdd_pllx", NULL), REGULATOR_SUPPLY("vdd_ddr_hs", NULL), REGULATOR_SUPPLY("avdd_plle", NULL), }; static struct regulator_consumer_supply palmas_ldo2_supply[] = { REGULATOR_SUPPLY("avdd_lcd", NULL), }; static struct regulator_consumer_supply palmas_ldo3_supply[] = { REGULATOR_SUPPLY("avdd_dsi_csi", "tegradc.0"), REGULATOR_SUPPLY("avdd_dsi_csi", "tegradc.1"), REGULATOR_SUPPLY("avdd_dsi_csi", "vi"), REGULATOR_SUPPLY("vddio_hsic", "tegra-ehci.1"), REGULATOR_SUPPLY("vddio_hsic", "tegra-ehci.2"), REGULATOR_SUPPLY("vddio_hsic", "tegra-xhci"), REGULATOR_SUPPLY("pwrdet_mipi", NULL), REGULATOR_SUPPLY("vddio_hsic_bb", NULL), REGULATOR_SUPPLY("vddio_hsic_modem2", NULL), }; static struct regulator_consumer_supply palmas_ldo4_supply[] = { REGULATOR_SUPPLY("vdd_spare", NULL), }; static struct regulator_consumer_supply palmas_ldo5_supply[] = { REGULATOR_SUPPLY("avdd_cam1", NULL), REGULATOR_SUPPLY("vana", "2-0010"), }; static struct regulator_consumer_supply palmas_ldo6_supply[] = { REGULATOR_SUPPLY("vdd_temp", NULL), REGULATOR_SUPPLY("vdd_mb", NULL), REGULATOR_SUPPLY("vin", "1-004d"), REGULATOR_SUPPLY("vdd_nfc_3v0", NULL), REGULATOR_SUPPLY("vdd_irled", NULL), REGULATOR_SUPPLY("vdd_sensor_3v0", NULL), REGULATOR_SUPPLY("vdd_3v0_pm", NULL), REGULATOR_SUPPLY("vaux_3v3", NULL), REGULATOR_SUPPLY("vdd", "0-0044"), REGULATOR_SUPPLY("vdd", "0-004c"), REGULATOR_SUPPLY("avdd", "spi3.2"), REGULATOR_SUPPLY("vdd", "0-0069"), }; static struct regulator_consumer_supply palmas_ldo7_supply[] = { REGULATOR_SUPPLY("vdd_af_cam1", NULL), REGULATOR_SUPPLY("vdd", "2-000e"), }; static struct regulator_consumer_supply palmas_ldo8_supply[] = { REGULATOR_SUPPLY("vdd_rtc", NULL), }; static struct regulator_consumer_supply palmas_ldo9_supply[] = { REGULATOR_SUPPLY("vddio_sdmmc", "sdhci-tegra.2"), REGULATOR_SUPPLY("pwrdet_sdmmc3", NULL), }; static struct regulator_consumer_supply palmas_ldoln_supply[] = { REGULATOR_SUPPLY("avdd_cam2", NULL), REGULATOR_SUPPLY("vana", "2-0036"), }; static struct regulator_consumer_supply palmas_ldousb_supply[] = { REGULATOR_SUPPLY("avdd_usb", "tegra-udc.0"), REGULATOR_SUPPLY("avdd_usb", "tegra-ehci.0"), REGULATOR_SUPPLY("avdd_usb", "tegra-ehci.1"), REGULATOR_SUPPLY("avdd_usb", "tegra-ehci.2"), REGULATOR_SUPPLY("hvdd_usb", "tegra-ehci.2"), REGULATOR_SUPPLY("hvdd_usb", "tegra-xhci"), REGULATOR_SUPPLY("avdd_hdmi", "tegradc.1"), REGULATOR_SUPPLY("vddio_hv", "tegradc.1"), REGULATOR_SUPPLY("pwrdet_hv", NULL), REGULATOR_SUPPLY("vdd_dtv_3v3", NULL), }; static struct regulator_consumer_supply palmas_regen1_supply[] = { REGULATOR_SUPPLY("mic_ventral", NULL), }; static struct regulator_consumer_supply palmas_regen2_supply[] = { REGULATOR_SUPPLY("vdd_mic", NULL), }; PALMAS_PDATA_INIT(smps123, 900, 1300, NULL, 0, 0, 0, NORMAL, 0); PALMAS_PDATA_INIT(smps45, 900, 1400, NULL, 0, 0, 0, NORMAL, 0); PALMAS_PDATA_INIT(smps6, 850, 850, NULL, 0, 0, 1, NORMAL, 0); PALMAS_PDATA_INIT(smps7, 1200, 1200, NULL, 0, 0, 1, NORMAL, 0); PALMAS_PDATA_INIT(smps8, 1800, 1800, NULL, 1, 1, 1, NORMAL, 0); PALMAS_PDATA_INIT(smps9, 2800, 2800, NULL, 1, 0, 1, NORMAL, 0); PALMAS_PDATA_INIT(smps10, 5000, 5000, NULL, 0, 0, 0, 0, 0); PALMAS_PDATA_INIT(ldo1, 1050, 1050, palmas_rails(smps7), 0, 0, 1, 0, 0); PALMAS_PDATA_INIT(ldo2, 2800, 3000, NULL, 0, 0, 0, 0, 0); PALMAS_PDATA_INIT(ldo3, 1200, 1200, palmas_rails(smps8), 0, 1, 1, 0, 0); PALMAS_PDATA_INIT(ldo4, 900, 3300, NULL, 0, 0, 0, 0, 0); PALMAS_PDATA_INIT(ldo5, 2700, 2700, NULL, 0, 0, 1, 0, 0); PALMAS_PDATA_INIT(ldo6, 3000, 3000, NULL, 1, 1, 1, 0, 0); PALMAS_PDATA_INIT(ldo7, 2800, 2800, NULL, 0, 0, 1, 0, 0); PALMAS_PDATA_INIT(ldo8, 900, 900, NULL, 1, 1, 1, 0, 0); PALMAS_PDATA_INIT(ldo9, 1800, 3300, palmas_rails(smps9), 0, 0, 1, 0, 0); PALMAS_PDATA_INIT(ldoln, 2700, 2700, NULL, 0, 0, 1, 0, 0); PALMAS_PDATA_INIT(ldousb, 3300, 3300, NULL, 0, 0, 1, 0, 0); PALMAS_PDATA_INIT(regen1, 4300, 4300, NULL, 0, 0, 0, 0, 0); PALMAS_PDATA_INIT(regen2, 4300, 4300, palmas_rails(smps8), 0, 0, 0, 0, 0); #define PALMAS_REG_PDATA(_sname) ®_idata_##_sname static struct regulator_init_data *pluto_reg_data[PALMAS_NUM_REGS] = { NULL, PALMAS_REG_PDATA(smps123), NULL, PALMAS_REG_PDATA(smps45), NULL, PALMAS_REG_PDATA(smps6), PALMAS_REG_PDATA(smps7), PALMAS_REG_PDATA(smps8), PALMAS_REG_PDATA(smps9), PALMAS_REG_PDATA(smps10), PALMAS_REG_PDATA(ldo1), PALMAS_REG_PDATA(ldo2), PALMAS_REG_PDATA(ldo3), PALMAS_REG_PDATA(ldo4), PALMAS_REG_PDATA(ldo5), PALMAS_REG_PDATA(ldo6), PALMAS_REG_PDATA(ldo7), PALMAS_REG_PDATA(ldo8), PALMAS_REG_PDATA(ldo9), PALMAS_REG_PDATA(ldoln), PALMAS_REG_PDATA(ldousb), PALMAS_REG_PDATA(regen1), PALMAS_REG_PDATA(regen2), NULL, NULL, NULL, }; #define PALMAS_REG_INIT(_name, _warm_reset, _roof_floor, _mode_sleep, \ _tstep, _vsel) \ static struct palmas_reg_init reg_init_data_##_name = { \ .warm_reset = _warm_reset, \ .roof_floor = _roof_floor, \ .mode_sleep = _mode_sleep, \ .tstep = _tstep, \ .vsel = _vsel, \ } PALMAS_REG_INIT(smps12, 0, 0, 0, 0, 0); PALMAS_REG_INIT(smps123, 0, PALMAS_EXT_CONTROL_ENABLE1, 0, 0, 0); PALMAS_REG_INIT(smps3, 0, 0, 0, 0, 0); PALMAS_REG_INIT(smps45, 0, PALMAS_EXT_CONTROL_NSLEEP, 0, 0, 0); PALMAS_REG_INIT(smps457, 0, 0, 0, 0, 0); PALMAS_REG_INIT(smps6, 0, 0, 0, 0, 0); PALMAS_REG_INIT(smps7, 0, 0, 0, 0, 0); PALMAS_REG_INIT(smps8, 0, 0, 0, 0, 0); PALMAS_REG_INIT(smps9, 0, 0, 0, 0, 0); PALMAS_REG_INIT(smps10, 0, 0, 0, 0, 0); PALMAS_REG_INIT(ldo1, 0, PALMAS_EXT_CONTROL_NSLEEP, 0, 0, 0); PALMAS_REG_INIT(ldo2, 0, PALMAS_EXT_CONTROL_NSLEEP, 0, 0, 0); PALMAS_REG_INIT(ldo3, 0, 0, 0, 0, 0); PALMAS_REG_INIT(ldo4, 0, PALMAS_EXT_CONTROL_NSLEEP, 0, 0, 0); PALMAS_REG_INIT(ldo5, 0, PALMAS_EXT_CONTROL_NSLEEP, 0, 0, 0); PALMAS_REG_INIT(ldo6, 0, 0, 0, 0, 0); PALMAS_REG_INIT(ldo7, 0, PALMAS_EXT_CONTROL_NSLEEP, 0, 0, 0); PALMAS_REG_INIT(ldo8, 0, 0, 0, 0, 0); PALMAS_REG_INIT(ldo9, 0, PALMAS_EXT_CONTROL_NSLEEP, 0, 0, 0); PALMAS_REG_INIT(ldoln, 0, PALMAS_EXT_CONTROL_NSLEEP, 0, 0, 0); PALMAS_REG_INIT(ldousb, 0, PALMAS_EXT_CONTROL_NSLEEP, 0, 0, 0); #define PALMAS_REG_INIT_DATA(_sname) ®_init_data_##_sname static struct palmas_reg_init *pluto_reg_init[PALMAS_NUM_REGS] = { PALMAS_REG_INIT_DATA(smps12), PALMAS_REG_INIT_DATA(smps123), PALMAS_REG_INIT_DATA(smps3), PALMAS_REG_INIT_DATA(smps45), PALMAS_REG_INIT_DATA(smps457), PALMAS_REG_INIT_DATA(smps6), PALMAS_REG_INIT_DATA(smps7), PALMAS_REG_INIT_DATA(smps8), PALMAS_REG_INIT_DATA(smps9), PALMAS_REG_INIT_DATA(smps10), PALMAS_REG_INIT_DATA(ldo1), PALMAS_REG_INIT_DATA(ldo2), PALMAS_REG_INIT_DATA(ldo3), PALMAS_REG_INIT_DATA(ldo4), PALMAS_REG_INIT_DATA(ldo5), PALMAS_REG_INIT_DATA(ldo6), PALMAS_REG_INIT_DATA(ldo7), PALMAS_REG_INIT_DATA(ldo8), PALMAS_REG_INIT_DATA(ldo9), PALMAS_REG_INIT_DATA(ldoln), PALMAS_REG_INIT_DATA(ldousb), }; static int ac_online(void) { return 1; } static struct resource pluto_pda_resources[] = { [0] = { .name = "ac", }, }; static struct pda_power_pdata pluto_pda_data = { .is_ac_online = ac_online, }; static struct platform_device pluto_pda_power_device = { .name = "pda-power", .id = -1, .resource = pluto_pda_resources, .num_resources = ARRAY_SIZE(pluto_pda_resources), .dev = { .platform_data = &pluto_pda_data, }, }; /* Always ON /Battery regulator */ static struct regulator_consumer_supply fixed_reg_en_battery_supply[] = { REGULATOR_SUPPLY("vdd_sys_cam", NULL), REGULATOR_SUPPLY("vdd_sys_bl", NULL), REGULATOR_SUPPLY("vdd_sys_com", NULL), REGULATOR_SUPPLY("vdd_sys_gps", NULL), REGULATOR_SUPPLY("vdd_sys_bt", NULL), REGULATOR_SUPPLY("vdd_sys_audio", NULL), }; static struct regulator_consumer_supply fixed_reg_en_vdd_1v8_cam_supply[] = { REGULATOR_SUPPLY("vddio_cam_mb", NULL), REGULATOR_SUPPLY("vdd_1v8_cam12", NULL), REGULATOR_SUPPLY("vif", "2-0010"), REGULATOR_SUPPLY("vif", "2-0036"), REGULATOR_SUPPLY("vdd_i2c", "2-000e"), }; static struct regulator_consumer_supply fixed_reg_en_vdd_1v2_cam_supply[] = { REGULATOR_SUPPLY("vdd_1v2_cam", NULL), REGULATOR_SUPPLY("vdig", "2-0010"), REGULATOR_SUPPLY("vdig", "2-0036"), }; static struct regulator_consumer_supply fixed_reg_en_avdd_usb3_1v05_supply[] = { REGULATOR_SUPPLY("avdd_usb_pll", "tegra-ehci.2"), REGULATOR_SUPPLY("avddio_usb", "tegra-ehci.2"), REGULATOR_SUPPLY("avdd_usb_pll", "tegra-xhci"), }; static struct regulator_consumer_supply fixed_reg_en_vdd_mmc_sdmmc3_supply[] = { REGULATOR_SUPPLY("vddio_sd_slot", "sdhci-tegra.2"), }; static struct regulator_consumer_supply fixed_reg_en_vdd_lcd_1v8_supply[] = { REGULATOR_SUPPLY("vdd_lcd_1v8_s", NULL), }; static struct regulator_consumer_supply fixed_reg_en_vdd_lcd_mmc_supply[] = { REGULATOR_SUPPLY("vdd_lcd_mmc_s_f", NULL), }; static struct regulator_consumer_supply fixed_reg_en_vdd_1v8_mic_supply[] = { REGULATOR_SUPPLY("vdd_1v8_mic", NULL), }; static struct regulator_consumer_supply fixed_reg_en_vdd_hdmi_5v0_supply[] = { REGULATOR_SUPPLY("vdd_hdmi_5v0", "tegradc.1"), }; static struct regulator_consumer_supply fixed_reg_en_vpp_fuse_supply[] = { REGULATOR_SUPPLY("vpp_fuse", NULL), REGULATOR_SUPPLY("v_efuse", NULL), }; /* Macro for defining fixed regulator sub device data */ #define FIXED_SUPPLY(_name) "fixed_reg_en"#_name #define FIXED_REG(_id, _var, _name, _in_supply, _always_on, _boot_on, \ _gpio_nr, _open_drain, _active_high, _boot_state, _millivolts, \ _sdelay) \ static struct regulator_init_data ri_data_##_var = \ { \ .supply_regulator = _in_supply, \ .num_consumer_supplies = \ ARRAY_SIZE(fixed_reg_en_##_name##_supply), \ .consumer_supplies = fixed_reg_en_##_name##_supply, \ .constraints = { \ .valid_modes_mask = (REGULATOR_MODE_NORMAL | \ REGULATOR_MODE_STANDBY), \ .valid_ops_mask = (REGULATOR_CHANGE_MODE | \ REGULATOR_CHANGE_STATUS | \ REGULATOR_CHANGE_VOLTAGE), \ .always_on = _always_on, \ .boot_on = _boot_on, \ }, \ }; \ static struct fixed_voltage_config fixed_reg_en_##_var##_pdata = \ { \ .supply_name = FIXED_SUPPLY(_name), \ .microvolts = _millivolts * 1000, \ .gpio = _gpio_nr, \ .gpio_is_open_drain = _open_drain, \ .enable_high = _active_high, \ .enabled_at_boot = _boot_state, \ .init_data = &ri_data_##_var, \ .startup_delay = _sdelay \ }; \ static struct platform_device fixed_reg_en_##_var##_dev = { \ .name = "reg-fixed-voltage", \ .id = _id, \ .dev = { \ .platform_data = &fixed_reg_en_##_var##_pdata, \ }, \ } FIXED_REG(0, battery, battery, NULL, 0, 0, -1, false, true, 0, 3300, 0); FIXED_REG(1, vdd_1v8_cam, vdd_1v8_cam, palmas_rails(smps8), 0, 0, PALMAS_TEGRA_GPIO_BASE + PALMAS_GPIO1, false, true, 0, 1800, 0); FIXED_REG(2, vdd_1v2_cam, vdd_1v2_cam, palmas_rails(smps7), 0, 0, PALMAS_TEGRA_GPIO_BASE + PALMAS_GPIO2, false, true, 0, 1200, 0); FIXED_REG(3, avdd_usb3_1v05, avdd_usb3_1v05, palmas_rails(smps8), 0, 0, TEGRA_GPIO_PK5, false, true, 0, 1050, 0); FIXED_REG(4, vdd_mmc_sdmmc3, vdd_mmc_sdmmc3, palmas_rails(smps9), 0, 0, TEGRA_GPIO_PK1, false, true, 0, 3300, 0); FIXED_REG(5, vdd_lcd_1v8, vdd_lcd_1v8, palmas_rails(smps8), 0, 0, PALMAS_TEGRA_GPIO_BASE + PALMAS_GPIO4, false, true, 0, 1800, 0); FIXED_REG(6, vdd_lcd_mmc, vdd_lcd_mmc, palmas_rails(smps9), 0, 0, TEGRA_GPIO_PI4, false, true, 0, 1800, 0); FIXED_REG(7, vdd_1v8_mic, vdd_1v8_mic, palmas_rails(smps8), 0, 0, -1, false, true, 0, 1800, 0); FIXED_REG(8, vdd_hdmi_5v0, vdd_hdmi_5v0, NULL, 0, 0, TEGRA_GPIO_PK6, true, true, 0, 5000, 5000); FIXED_REG(9, vpp_fuse, vpp_fuse, palmas_rails(smps8), 0, 0, TEGRA_GPIO_PX4, false, true, 0, 1800, 0); /* * Creating the fixed regulator device tables */ #define ADD_FIXED_REG(_name) (&fixed_reg_en_##_name##_dev) #define E1580_COMMON_FIXED_REG \ ADD_FIXED_REG(battery), \ ADD_FIXED_REG(vdd_1v8_cam), \ ADD_FIXED_REG(vdd_1v2_cam), \ ADD_FIXED_REG(avdd_usb3_1v05), \ ADD_FIXED_REG(vdd_mmc_sdmmc3), \ ADD_FIXED_REG(vdd_lcd_1v8), \ ADD_FIXED_REG(vdd_lcd_mmc), \ ADD_FIXED_REG(vdd_1v8_mic), \ ADD_FIXED_REG(vdd_hdmi_5v0), #define E1580_T114_FIXED_REG \ ADD_FIXED_REG(vpp_fuse), /* Gpio switch regulator platform data for Pluto E1580 */ static struct platform_device *pfixed_reg_devs[] = { E1580_COMMON_FIXED_REG E1580_T114_FIXED_REG }; #ifdef CONFIG_ARCH_TEGRA_HAS_CL_DVFS /* board parameters for cpu dfll */ static struct tegra_cl_dvfs_cfg_param pluto_cl_dvfs_param = { .sample_rate = 12500, .force_mode = TEGRA_CL_DVFS_FORCE_FIXED, .cf = 10, .ci = 0, .cg = 2, .droop_cut_value = 0xF, .droop_restore_ramp = 0x0, .scale_out_ramp = 0x0, }; #endif /* palmas: fixed 10mV steps from 600mV to 1400mV, with offset 0x10 */ #define PMU_CPU_VDD_MAP_SIZE ((1400000 - 600000) / 10000 + 1) static struct voltage_reg_map pmu_cpu_vdd_map[PMU_CPU_VDD_MAP_SIZE]; static inline void fill_reg_map(void) { int i; for (i = 0; i < PMU_CPU_VDD_MAP_SIZE; i++) { pmu_cpu_vdd_map[i].reg_value = i + 0x10; pmu_cpu_vdd_map[i].reg_uV = 600000 + 10000 * i; } } #ifdef CONFIG_ARCH_TEGRA_HAS_CL_DVFS static struct tegra_cl_dvfs_platform_data pluto_cl_dvfs_data = { .dfll_clk_name = "dfll_cpu", .pmu_if = TEGRA_CL_DVFS_PMU_I2C, .u.pmu_i2c = { .fs_rate = 400000, .slave_addr = 0xb0, .reg = 0x23, }, .vdd_map = pmu_cpu_vdd_map, .vdd_map_size = PMU_CPU_VDD_MAP_SIZE, .cfg_param = &pluto_cl_dvfs_param, }; static int __init pluto_cl_dvfs_init(void) { fill_reg_map(); if (tegra_revision < TEGRA_REVISION_A02) pluto_cl_dvfs_data.out_quiet_then_disable = true; tegra_cl_dvfs_device.dev.platform_data = &pluto_cl_dvfs_data; platform_device_register(&tegra_cl_dvfs_device); return 0; } #endif static struct palmas_dvfs_init_data palmas_dvfs_idata[] = { { .en_pwm = false, }, { .en_pwm = true, .ext_ctrl = PALMAS_EXT_CONTROL_ENABLE2, .reg_id = PALMAS_REG_SMPS6, .step_20mV = true, .base_voltage_uV = 500000, .max_voltage_uV = 1100000, }, }; static struct palmas_pmic_platform_data pmic_platform = { .enable_ldo8_tracking = true, .disabe_ldo8_tracking_suspend = true, .disable_smps10_boost_suspend = true, .dvfs_init_data = palmas_dvfs_idata, .dvfs_init_data_size = ARRAY_SIZE(palmas_dvfs_idata), }; struct palmas_clk32k_init_data palmas_clk32k_idata[] = { { .clk32k_id = PALMAS_CLOCK32KG, .enable = true, }, { .clk32k_id = PALMAS_CLOCK32KG_AUDIO, .enable = true, }, }; static struct palmas_platform_data palmas_pdata = { .gpio_base = PALMAS_TEGRA_GPIO_BASE, .irq_base = PALMAS_TEGRA_IRQ_BASE, .pmic_pdata = &pmic_platform, .mux_from_pdata = true, .pad1 = 0, .pad2 = (PALMAS_PRIMARY_SECONDARY_PAD2_GPIO_5_MASK & (1 << PALMAS_PRIMARY_SECONDARY_PAD2_GPIO_5_SHIFT)), .pad3 = PALMAS_PRIMARY_SECONDARY_PAD3_DVFS2, .clk32k_init_data = palmas_clk32k_idata, .clk32k_init_data_size = ARRAY_SIZE(palmas_clk32k_idata), .irq_type = IRQ_TYPE_LEVEL_HIGH, .use_power_off = true, }; static struct i2c_board_info palma_device[] = { { I2C_BOARD_INFO("tps65913", 0x58), .irq = INT_EXTERNAL_PMU, .platform_data = &palmas_pdata, }, }; int __init pluto_regulator_init(void) { void __iomem *pmc = IO_ADDRESS(TEGRA_PMC_BASE); u32 pmc_ctrl; int i; #ifdef CONFIG_ARCH_TEGRA_HAS_CL_DVFS pluto_cl_dvfs_init(); #endif /* TPS65913: Normal state of INT request line is LOW. * configure the power management controller to trigger PMU * interrupts when HIGH. */ pmc_ctrl = readl(pmc + PMC_CTRL); writel(pmc_ctrl & ~PMC_CTRL_INTR_LOW, pmc + PMC_CTRL); for (i = 0; i < PALMAS_NUM_REGS ; i++) { pmic_platform.reg_data[i] = pluto_reg_data[i]; pmic_platform.reg_init[i] = pluto_reg_init[i]; } platform_device_register(&pluto_pda_power_device); i2c_register_board_info(4, palma_device, ARRAY_SIZE(palma_device)); return 0; } static int __init pluto_fixed_regulator_init(void) { if (!machine_is_tegra_pluto()) return 0; return platform_add_devices(pfixed_reg_devs, ARRAY_SIZE(pfixed_reg_devs)); } subsys_initcall_sync(pluto_fixed_regulator_init); static struct tegra_suspend_platform_data pluto_suspend_data = { .cpu_timer = 300, .cpu_off_timer = 300, .suspend_mode = TEGRA_SUSPEND_LP0, .core_timer = 0x157e, .core_off_timer = 2000, .corereq_high = true, .sysclkreq_high = true, .cpu_lp2_min_residency = 1000, .min_residency_crail = 20000, }; int __init pluto_suspend_init(void) { tegra_init_suspend(&pluto_suspend_data); return 0; } int __init pluto_edp_init(void) { unsigned int regulator_mA; regulator_mA = get_maximum_cpu_current_supported(); if (!regulator_mA) regulator_mA = 9000; pr_info("%s: CPU regulator %d mA\n", __func__, regulator_mA); tegra_init_cpu_edp_limits(regulator_mA); regulator_mA = get_maximum_core_current_supported(); if (!regulator_mA) regulator_mA = 4000; pr_info("%s: core regulator %d mA\n", __func__, regulator_mA); tegra_init_core_edp_limits(regulator_mA); return 0; } static struct thermal_zone_params pluto_soctherm_therm_cpu_tzp = { .governor_name = "pid_thermal_gov", }; static struct tegra_tsensor_pmu_data tpdata_palmas = { .reset_tegra = 1, .pmu_16bit_ops = 0, .controller_type = 0, .pmu_i2c_addr = 0x58, .i2c_controller_id = 4, .poweroff_reg_addr = 0xa0, .poweroff_reg_data = 0x0, }; static struct soctherm_platform_data pluto_soctherm_data = { .therm = { [THERM_CPU] = { .zone_enable = true, .passive_delay = 1000, .num_trips = 3, .trips = { { .cdev_type = "tegra-balanced", .trip_temp = 90000, .trip_type = THERMAL_TRIP_PASSIVE, .upper = THERMAL_NO_LIMIT, .lower = THERMAL_NO_LIMIT, }, { .cdev_type = "tegra-heavy", .trip_temp = 100000, .trip_type = THERMAL_TRIP_HOT, .upper = THERMAL_NO_LIMIT, .lower = THERMAL_NO_LIMIT, }, { .cdev_type = "tegra-shutdown", .trip_temp = 102000, .trip_type = THERMAL_TRIP_CRITICAL, .upper = THERMAL_NO_LIMIT, .lower = THERMAL_NO_LIMIT, }, }, .tzp = &pluto_soctherm_therm_cpu_tzp, }, [THERM_GPU] = { .zone_enable = true, }, [THERM_PLL] = { .zone_enable = true, }, }, .throttle = { [THROTTLE_HEAVY] = { .devs = { [THROTTLE_DEV_CPU] = { .enable = 1, }, }, }, }, .tshut_pmu_trip_data = &tpdata_palmas, }; int __init pluto_soctherm_init(void) { tegra_platform_edp_init(pluto_soctherm_data.therm[THERM_CPU].trips, &pluto_soctherm_data.therm[THERM_CPU].num_trips, 8000); /* edp temperature margin */ tegra_add_tj_trips(pluto_soctherm_data.therm[THERM_CPU].trips, &pluto_soctherm_data.therm[THERM_CPU].num_trips); return tegra11_soctherm_init(&pluto_soctherm_data); }