/* * battery-charger-gauge-comm.h -- Communication APIS between battery charger * and battery gauge driver. * * Copyright (c) 2013-2018, NVIDIA CORPORATION. All rights reserved. * * Author: Laxman Dewangan * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation version 2. * * This program is distributed "as is" WITHOUT ANY WARRANTY of any kind, * whether express or implied; 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., 59 Temple Place, Suite 330, Boston, MA * 02111-1307, USA */ #ifndef _LINUX_POWER_BATTERY_CHARGER_GAUGE_COMM_H #define _LINUX_POWER_BATTERY_CHARGER_GAUGE_COMM_H #define BATTERY_SNAPSHOT_INTERVAL 2*HZ enum battery_charger_status { BATTERY_DISCHARGING, BATTERY_CHARGING, BATTERY_CHARGING_DONE, }; struct battery_gauge_dev; struct battery_charger_dev; struct battery_gauge_ops { int (*update_battery_status)(struct battery_gauge_dev *bg_device, enum battery_charger_status status); int (*set_current_broadcast) (struct battery_gauge_dev *bg_device); int (*get_battery_temp)(void); int (*get_battery_soc)(struct battery_gauge_dev *bg_device); int (*get_battery_voltage)(struct battery_gauge_dev *bg_device); int (*get_battery_current)(struct battery_gauge_dev *bg_device); int (*get_charging_status)(struct battery_gauge_dev *bg_device); }; struct battery_charging_ops { int (*get_charging_status)(struct battery_charger_dev *bc_dev); int (*restart_charging)(struct battery_charger_dev *bc_dev); int (*thermal_configure)(struct battery_charger_dev *bct_dev, int temp, bool enable_charger, bool enable_charg_half_current, int battery_voltage); int (*charge_term_configure)(struct battery_charger_dev *bc_dev, int fc_state); int (*input_voltage_configure)(struct battery_charger_dev *bc_dev, int soc); int (*get_input_current_limit)(struct battery_charger_dev *bc_dev); }; struct battery_charger_info { const char *tz_name; int cell_id; int polling_time_sec; bool enable_thermal_monitor; struct battery_charging_ops *bc_ops; }; struct battery_gauge_info { int cell_id; const char *tz_name; const char *current_channel_name; const char *input_power_channel_name; struct battery_gauge_ops *bg_ops; }; struct battery_charger_dev *battery_charger_register(struct device *dev, struct battery_charger_info *bci, void *drv_data); void battery_charger_unregister(struct battery_charger_dev *bc_dev); int battery_charging_status_update(struct battery_charger_dev *bc_dev, enum battery_charger_status status); int battery_charging_restart(struct battery_charger_dev *bc_dev, int after_sec); void battery_charging_restart_cancel(struct battery_charger_dev *bc_dev); int battery_charger_thermal_start_monitoring( struct battery_charger_dev *bc_dev); int battery_charger_thermal_stop_monitoring( struct battery_charger_dev *bc_dev); int battery_charger_acquire_wake_lock(struct battery_charger_dev *bc_dev); int battery_charger_release_wake_lock(struct battery_charger_dev *bc_dev); int battery_charging_wakeup(struct battery_charger_dev *bc_dev, int after_sec); int battery_charging_system_reset_after(struct battery_charger_dev *bc_dev, int after_sec); int battery_charging_system_power_on_usb_event( struct battery_charger_dev *bc_dev); int battery_gauge_get_battery_temperature(struct battery_gauge_dev *bg_dev, int *temp); int battery_gauge_get_battery_current(struct battery_gauge_dev *bg_dev, int *current_ma); int battery_charger_set_current_broadcast(struct battery_charger_dev *bc_dev); struct battery_gauge_dev *battery_gauge_register(struct device *dev, struct battery_gauge_info *bgi, void *drv_data); void battery_gauge_unregister(struct battery_gauge_dev *bg_dev); void *battery_charger_get_drvdata(struct battery_charger_dev *bc_dev); void battery_charger_set_drvdata(struct battery_charger_dev *bc_dev, void *data); void *battery_gauge_get_drvdata(struct battery_gauge_dev *bg_dev); void battery_gauge_set_drvdata(struct battery_gauge_dev *bg_dev, void *data); int battery_gauge_get_scaled_soc(struct battery_gauge_dev *bg_dev, int actual_soc_semi, int thresod_soc); int battery_gauge_get_adjusted_soc(struct battery_gauge_dev *bg_dev, int min_soc, int max_soc, int actual_soc_semi); int battery_gauge_fc_state(struct battery_gauge_dev *bg_dev, int fullcharge_state); int battery_gauge_report_battery_soc(struct battery_gauge_dev *bg_dev, int battery_soc); int battery_gauge_get_battery_soc(struct battery_charger_dev *bc_dev); int battery_gauge_get_battery_voltage(struct battery_charger_dev *bc_dev); int battery_gauge_get_charging_current(struct battery_charger_dev *bc_dev); int battery_gauge_get_input_current_limit(struct battery_gauge_dev *bg_dev); int battery_gauge_get_input_power(struct battery_gauge_dev *bg_dev, int *power_mw); int battery_gauge_get_charging_status(struct battery_charger_dev *bc_dev); #endif /* _LINUX_POWER_BATTERY_CHARGER_GAUGE_COMM_H */