/* Copyright (c) 2014 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef __CROS_EC_CHARGE_MANAGER_H #define __CROS_EC_CHARGE_MANAGER_H #include "common.h" /* Charge port that indicates no active port */ #define CHARGE_PORT_NONE -1 #define CHARGE_CEIL_NONE -1 /* Initial charge state */ #define CHARGE_CURRENT_UNINITIALIZED -1 #define CHARGE_VOLTAGE_UNINITIALIZED -1 /* Only track BC1.2 charge current if we support BC1.2 charging */ #if defined(HAS_TASK_USB_CHG) || defined(HAS_TASK_USB_CHG_P0) || \ defined(TEST_BUILD) #define CHARGE_MANAGER_BC12 #endif /** * Time to delay for detecting the charger type (must be long enough for BC1.2 * driver to get supplier information and notify charge manager). */ #define CHARGE_DETECT_DELAY (2*SECOND) /* Commonly-used charge suppliers listed in no particular order */ enum charge_supplier { CHARGE_SUPPLIER_NONE = -1, CHARGE_SUPPLIER_PD, CHARGE_SUPPLIER_TYPEC, CHARGE_SUPPLIER_TYPEC_DTS, #ifdef CHARGE_MANAGER_BC12 CHARGE_SUPPLIER_BC12_DCP, CHARGE_SUPPLIER_BC12_CDP, CHARGE_SUPPLIER_BC12_SDP, CHARGE_SUPPLIER_PROPRIETARY, CHARGE_SUPPLIER_TYPEC_UNDER_1_5A, CHARGE_SUPPLIER_OTHER, CHARGE_SUPPLIER_VBUS, #endif /* CHARGE_MANAGER_BC12 */ #if CONFIG_DEDICATED_CHARGE_PORT_COUNT > 0 CHARGE_SUPPLIER_DEDICATED, #endif #ifdef CONFIG_WIRELESS_CHARGER_P9221_R7 CHARGE_SUPPLIER_WPC_BPP, CHARGE_SUPPLIER_WPC_EPP, CHARGE_SUPPLIER_WPC_GPP, #endif CHARGE_SUPPLIER_COUNT }; /* * Charge supplier priority: lower number indicates higher priority. * Default priority is in charge_manager.c. It can be overridden by boards. */ extern const int supplier_priority[]; /* Charge tasks report available current and voltage */ struct charge_port_info { int current; int voltage; }; /** * Called by charging tasks to update their available charge. * * @param supplier Charge supplier to update. * @param port Charge port to update. * @param charge Charge port current / voltage. If NULL, current = 0 * voltage = 0 will be used. */ void charge_manager_update_charge(int supplier, int port, const struct charge_port_info *charge); /* Partner port dualrole capabilities */ enum dualrole_capabilities { CAP_UNKNOWN, CAP_DUALROLE, CAP_DEDICATED, }; /** * Notify charge_manager of a partner dualrole capability change. * * @param port Charge port which changed. * @param cap New port capability. */ void charge_manager_update_dualrole(int port, enum dualrole_capabilities cap); /** * Tell charge_manager to leave safe mode and switch to standard port / ILIM * selection logic. */ void charge_manager_leave_safe_mode(void); /** * Charge ceiling can be set independently by different tasks / functions, * for different purposes. */ enum ceil_requestor { /* Set by PD task, during negotiation */ CEIL_REQUESTOR_PD, /* Set by host commands */ CEIL_REQUESTOR_HOST, /* Number of ceiling groups */ CEIL_REQUESTOR_COUNT, }; #define CHARGE_PORT_COUNT \ (CONFIG_USB_PD_PORT_COUNT + CONFIG_DEDICATED_CHARGE_PORT_COUNT) #if (CONFIG_DEDICATED_CHARGE_PORT_COUNT > 0) && !defined(DEDICATED_CHARGE_PORT) #error "DEDICATED_CHARGE_PORT must be defined" #endif /** * Update charge ceiling for a given port. The ceiling can be set independently * for several requestors, and the min. ceil will be enforced. * * @param port Charge port to update. * @param requestor Charge ceiling requestor. * @param ceil Charge ceiling (mA). */ void charge_manager_set_ceil(int port, enum ceil_requestor requestor, int ceil); /* * Update PD charge ceiling for a given port. In the event that our ceiling * is currently above ceil, change the current limit before returning, without * waiting for a charge manager refresh. This function should only be used in * time-critical situations where we absolutely cannot proceed without limiting * our input current, and it should only be called from the PD tasks. * If you ever call this function then you are a terrible person. */ void charge_manager_force_ceil(int port, int ceil); /** * Select an 'override port', a port which is always the preferred charge port. * * @param port Charge port to select as override, or * OVERRIDE_OFF to select no override port, * or OVERRIDE_DONT_CHARGE to specific that no * charge port should be selected. * @return EC_SUCCESS on success, * the other ec_error_list status on failure. */ int charge_manager_set_override(int port); /** * Get the override port. * * @return Port number or OVERRIDE_OFF or OVERRIDE_DONT_CHARGE. */ int charge_manager_get_override(void); /** * Get the current active charge port, as determined by charge manager. * * @return Current active charge port. */ int charge_manager_get_active_charge_port(void); /** * Get the power limit set by charge manager. * * @return Power limit (uW). */ int charge_manager_get_power_limit_uw(void); /** * Get the charger current (mA) value. * * @return Charger current (mA) or CHARGE_CURRENT_UNINITIALIZED. */ int charge_manager_get_charger_current(void); /** * Get the charger voltage (mV) value. * * @return Charger voltage (mV) or CHARGE_VOLTAGE_UNINITIALIZED. */ int charge_manager_get_charger_voltage(void); #ifdef CONFIG_USB_PD_LOGGING /* Save power state log entry for the given port */ void charge_manager_save_log(int port); #endif /** * Update whether a given port is sourcing current. * * @param port Port number to be updated. * @param enable 0 if the source port is disabled; * Otherwise the source port is enabled. */ void charge_manager_source_port(int port, int enable); /** * Get PD source power data objects. * * @param src_pdo Pointer to the data to return. * @param port Current port to evaluate against. * @return number of PDOs returned. */ int charge_manager_get_source_pdo(const uint32_t **src_pdo, const int port); /* Board-level callback functions */ /** * Set the passed charge port as active.` * * @param charge_port Charge port to be enabled. * @return EC_SUCCESS if the charge port is accepted, * other ec_error_list status otherwise. */ int board_set_active_charge_port(int charge_port); /** * Set the charge current limit. * * @param port PD port. * @param supplier Identified CHARGE_SUPPLIER_*. * @param charge_ma Desired charge current limit, <= max_ma. * @param max_ma Maximum charge current limit, >= charge_ma. * @param charge_mv Negotiated charge voltage (mV). */ void board_set_charge_limit(int port, int supplier, int charge_ma, int max_ma, int charge_mv); /** * Get whether the port is sourcing power on VBUS. * * @param port PD port. * @return VBUS power state. */ int board_vbus_source_enabled(int port); #ifdef CONFIG_USB_PD_VBUS_MEASURE_ADC_EACH_PORT /** * Gets the adc_channel for the specified port. * * @param port PD port. * @return adc_channel that measures the Vbus voltage. */ enum adc_channel board_get_vbus_adc(int port); #endif /* CONFIG_USB_PD_VBUS_MEASURE_ADC_EACH_PORT */ #endif /* __CROS_EC_CHARGE_MANAGER_H */