/* Copyright 2018 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. * * Placeholder values for temporary battery pack. */ #include "battery.h" #include "battery_smart.h" #include "charge_state.h" #include "console.h" #include "ec_commands.h" #include "extpower.h" #include "gpio.h" #include "util.h" static enum battery_present batt_pres_prev = BP_NOT_SURE; /* Shutdown mode parameters to write to manufacturer access register */ #define SB_SHIP_MODE_REG SB_MANUFACTURER_ACCESS #define SB_SHUTDOWN_DATA 0x0010 static const struct battery_info info = { .voltage_max = 13200, .voltage_normal = 11550, .voltage_min = 9000, /* Pre-charge values. */ .precharge_current = 256, /* mA */ .start_charging_min_c = 0, .start_charging_max_c = 45, .charging_min_c = 0, .charging_max_c = 60, .discharging_min_c = 0, .discharging_max_c = 60, }; const struct battery_info *battery_get_info(void) { return &info; } int board_cut_off_battery(void) { int rv; /* Ship mode command must be sent twice to take effect */ rv = sb_write(SB_SHIP_MODE_REG, SB_SHUTDOWN_DATA); if (rv != EC_SUCCESS) return rv; return sb_write(SB_SHIP_MODE_REG, SB_SHUTDOWN_DATA); } enum battery_present battery_hw_present(void) { /* The GPIO is low when the battery is physically present */ return gpio_get_level(GPIO_BATT_PRES_L) ? BP_NO : BP_YES; } static int battery_init(void) { int batt_status; return battery_status(&batt_status) ? 0 : !!(batt_status & STATUS_INITIALIZED); } /* * Check for case where both XCHG and XDSG bits are set indicating that even * though the FG can be read from the battery, the battery is not able to be * charged or discharged. This situation will happen if a battery disconnect was * intiaited via H1 setting the DISCONN signal to the battery. This will put the * battery pack into a sleep state and when power is reconnected, the FG can be * read, but the battery is still not able to provide power to the system. The * calling function returns batt_pres = BP_NO, which instructs the charging * state machine to prevent powering up the AP on battery alone which could lead * to a brownout event when the battery isn't able yet to provide power to the * system. . */ static int battery_check_disconnect(void) { int rv; uint8_t data[6]; /* Check if battery charging + discharging is disabled. */ rv = sb_read_mfgacc(PARAM_OPERATION_STATUS, SB_ALT_MANUFACTURER_ACCESS, data, sizeof(data)); if (rv) return BATTERY_DISCONNECT_ERROR; if ((data[3] & (BATTERY_DISCHARGING_DISABLED | BATTERY_CHARGING_DISABLED)) == (BATTERY_DISCHARGING_DISABLED | BATTERY_CHARGING_DISABLED)) return BATTERY_DISCONNECTED; return BATTERY_NOT_DISCONNECTED; } enum battery_present battery_is_present(void) { enum battery_present batt_pres; /* Get the physical hardware status */ batt_pres = battery_hw_present(); /* * Make sure battery status is implemented, I2C transactions are * successful & the battery status is initialized to find out if it * is a working battery and it is not in the cut-off mode. * * If battery I2C fails but VBATT is high, battery is booting from * cut-off mode. * * FETs are turned off after Power Shutdown time. * The device will wake up when a voltage is applied to PACK. * Battery status will be inactive until it is initialized. */ if (batt_pres == BP_YES && batt_pres_prev != batt_pres && (battery_is_cut_off() != BATTERY_CUTOFF_STATE_NORMAL || battery_check_disconnect() != BATTERY_NOT_DISCONNECTED || battery_init() == 0)) { batt_pres = BP_NO; } batt_pres_prev = batt_pres; return batt_pres; }