/* Copyright 2012 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. */ /* USB charging control module for Chrome EC */ #ifndef __CROS_EC_USB_CHARGE_H #define __CROS_EC_USB_CHARGE_H #include "charge_manager.h" #include "common.h" #include "ec_commands.h" #include "task.h" /* USB charger voltage */ #define USB_CHARGER_VOLTAGE_MV 5000 /* USB charger minimum current */ #define USB_CHARGER_MIN_CURR_MA 500 /* * USB charger maximum current * * The USB Type-C specification limits the maximum amount of current from BC 1.2 * suppliers to 1.5A. Technically, proprietary methods are not allowed, but we * will continue to allow those. */ #define USB_CHARGER_MAX_CURR_MA 1500 #define USB_SYSJUMP_TAG 0x5550 /* "UP" - Usb Port */ #define USB_HOOK_VERSION 1 #ifdef CONFIG_USB_PORT_POWER_SMART #define USB_PORT_ENABLE_COUNT CONFIG_USB_PORT_POWER_SMART_PORT_COUNT #elif defined(CONFIG_USB_PORT_POWER_DUMB) #define USB_PORT_ENABLE_COUNT USB_PORT_COUNT #endif /* GPIOs to enable/disable USB ports. Board specific. */ #ifdef USB_PORT_ENABLE_COUNT #ifdef CONFIG_USB_PORT_ENABLE_DYNAMIC extern int usb_port_enable[USB_PORT_ENABLE_COUNT]; #else extern const int usb_port_enable[USB_PORT_ENABLE_COUNT]; #endif #endif /* USB_PORT_ENABLE_COUNT */ /** * Set USB charge mode for the port. * * @param usb_port_id Port to set. * @param mode New mode for port. * @param inhibit_charge Inhibit charging during system suspend. * @return EC_SUCCESS, or non-zero if error. */ int usb_charge_set_mode(int usb_port_id, enum usb_charge_mode mode, enum usb_suspend_charge inhibit_charge); #define USB_CHG_EVENT_BC12 TASK_EVENT_CUSTOM_BIT(0) #define USB_CHG_EVENT_VBUS TASK_EVENT_CUSTOM_BIT(1) #define USB_CHG_EVENT_INTR TASK_EVENT_CUSTOM_BIT(2) #define USB_CHG_EVENT_DR_UFP TASK_EVENT_CUSTOM_BIT(3) #define USB_CHG_EVENT_DR_DFP TASK_EVENT_CUSTOM_BIT(4) #define USB_CHG_EVENT_CC_OPEN TASK_EVENT_CUSTOM_BIT(5) #define USB_CHG_EVENT_MUX TASK_EVENT_CUSTOM_BIT(6) /* * Define USB_CHG_PORT_TO_TASK_ID() and TASK_ID_TO_USB_CHG_PORT() macros to * go between USB_CHG port number and task ID. Assume that TASK_ID_USB_CHG_P0, * is the lowest task ID and IDs are on a continuous range. */ #ifdef HAS_TASK_USB_CHG_P0 #define USB_CHG_PORT_TO_TASK_ID(port) (TASK_ID_USB_CHG_P0 + (port)) #define TASK_ID_TO_USB_CHG_PORT(id) ((id) - TASK_ID_USB_CHG_P0) #else #define USB_CHG_PORT_TO_TASK_ID(port) -1 /* stub task ID */ #define TASK_ID_TO_USB_CHG_PORT(id) 0 #endif /* HAS_TASK_USB_CHG_P0 */ /** * Returns true if the passed port is a power source. * * @param port Port number. * @return True if port is sourcing vbus. */ int usb_charger_port_is_sourcing_vbus(int port); enum usb_switch { USB_SWITCH_CONNECT, USB_SWITCH_DISCONNECT, USB_SWITCH_RESTORE, }; struct bc12_drv { /* All fields below are optional */ /* BC1.2 detection task for this chip */ void (*usb_charger_task)(int port); /* Configure USB data switches on type-C port */ void (*set_switches)(int port, enum usb_switch setting); /* Check if ramping is allowed for given supplier */ int (*ramp_allowed)(int supplier); /* Get the maximum current limit that we are allowed to ramp to */ int (*ramp_max)(int supplier, int sup_curr); }; struct bc12_config { const struct bc12_drv *drv; }; /** * An array of length CHARGE_PORT_COUNT which associates each * pd port / dedicated charge port to bc12 driver. * * If CONFIG_BC12_SINGLE_DRIVER is defined, bc12 driver will provide a * definition of this array. Otherwise, board should define this by themselves. */ extern struct bc12_config bc12_ports[]; /** * Configure USB data switches on type-C port. * * @param port port number. * @param setting new switch setting to configure. */ static inline void usb_charger_set_switches(int port, enum usb_switch setting) { if (bc12_ports[port].drv->set_switches) bc12_ports[port].drv->set_switches(port, setting); } /** * Notify USB_CHG task that VBUS level has changed. * * @param port port number. * @param vbus_level new VBUS level */ void usb_charger_vbus_change(int port, int vbus_level); /** * Check if ramping is allowed for given supplier * * @param port port number. * @param supplier Supplier to check * * @return Ramping is allowed for given supplier */ static inline int usb_charger_ramp_allowed(int port, int supplier) { if (port < 0 || !bc12_ports[port].drv->ramp_allowed) return 0; return bc12_ports[port].drv->ramp_allowed(supplier); } /** * Get the maximum current limit that we are allowed to ramp to * * @param port port number. * @param supplier Active supplier type * @param sup_curr Input current limit based on supplier * * @return Maximum current in mA */ static inline int usb_charger_ramp_max(int port, int supplier, int sup_curr) { if (port < 0 || !bc12_ports[port].drv->ramp_max) return 0; return bc12_ports[port].drv->ramp_max(supplier, sup_curr); } /** * Set a task event for a specific usb charger port * * @param port port number * @param event event bits (USB_CHG_EVENT_*) */ uint32_t usb_charger_task_set_event(int port, uint32_t event); /** * Reset available BC 1.2 chargers on all ports * * @param port */ void usb_charger_reset_charge(int port); /** * Check if a particular port is sourcing VBUS * * This function is typically defined in the board file * * @param port port number * @return 0 if not source, non-zero if sourcing */ int board_is_sourcing_vbus(int port); /** * Enable VBUS sink for a given port * * This function is typically defined in the board file * * @param port port number * @param enable 0 to disable, 1 to enable * @return EC_SUCCESS if OK, EC_ERROR_INVAL if @port is invalid */ int board_vbus_sink_enable(int port, int enable); #endif /* __CROS_EC_USB_CHARGE_H */