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|
/* 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.
*/
/* Rammus board-specific configuration */
#include "adc.h"
#include "anx7447.h"
#include "bd99992gw.h"
#include "board_config.h"
#include "button.h"
#include "cbi_ssfc.h"
#include "charge_manager.h"
#include "charge_state.h"
#include "charge_ramp.h"
#include "charger.h"
#include "chipset.h"
#include "console.h"
#include "cros_board_info.h"
#include "driver/accelgyro_bmi_common.h"
#include "driver/accel_bma2x2.h"
#include "driver/accel_kionix.h"
#include "driver/accel_kx022.h"
#include "driver/charger/isl923x.h"
#include "driver/tcpm/ps8xxx.h"
#include "driver/tcpm/tcpci.h"
#include "driver/tcpm/tcpm.h"
#include "driver/temp_sensor/bd99992gw.h"
#include "extpower.h"
#include "gpio.h"
#include "hooks.h"
#include "host_command.h"
#include "i2c.h"
#include "keyboard_scan.h"
#include "lid_switch.h"
#include "math_util.h"
#include "motion_lid.h"
#include "motion_sense.h"
#include "pi3usb9281.h"
#include "power.h"
#include "power_button.h"
#include "pwm.h"
#include "pwm_chip.h"
#include "spi.h"
#include "switch.h"
#include "system.h"
#include "tablet_mode.h"
#include "task.h"
#include "temp_sensor.h"
#include "timer.h"
#include "uart.h"
#include "usb_charge.h"
#include "usb_mux.h"
#include "usb_pd.h"
#include "usb_pd_tcpm.h"
#include "util.h"
#include "espi.h"
#define CPRINTS(format, args...) cprints(CC_SYSTEM, format, ## args)
#define CPRINTF(format, args...) cprintf(CC_SYSTEM, format, ## args)
#define USB_PD_PORT_PS8751 1
#define USB_PD_PORT_ANX7447 0
static void tcpc_alert_event(enum gpio_signal signal)
{
int port = -1;
switch (signal) {
case GPIO_USB_C0_PD_INT_ODL:
port = 0;
break;
case GPIO_USB_C1_PD_INT_ODL:
port = 1;
break;
default:
return;
}
schedule_deferred_pd_interrupt(port);
}
/* Set PD discharge whenever VBUS detection is high (i.e. below threshold). */
static void vbus_discharge_handler(void)
{
pd_set_vbus_discharge(0, gpio_get_level(GPIO_USB_C0_VBUS_DET_L));
pd_set_vbus_discharge(1, gpio_get_level(GPIO_USB_C1_VBUS_DET_L));
}
DECLARE_DEFERRED(vbus_discharge_handler);
void vbus0_evt(enum gpio_signal signal)
{
/* VBUS present GPIO is inverted */
usb_charger_vbus_change(0, !gpio_get_level(signal));
task_wake(TASK_ID_PD_C0);
hook_call_deferred(&vbus_discharge_handler_data, 0);
}
void vbus1_evt(enum gpio_signal signal)
{
/* VBUS present GPIO is inverted */
usb_charger_vbus_change(1, !gpio_get_level(signal));
task_wake(TASK_ID_PD_C1);
hook_call_deferred(&vbus_discharge_handler_data, 0);
}
void usb0_evt(enum gpio_signal signal)
{
task_set_event(TASK_ID_USB_CHG_P0, USB_CHG_EVENT_BC12);
}
void usb1_evt(enum gpio_signal signal)
{
task_set_event(TASK_ID_USB_CHG_P1, USB_CHG_EVENT_BC12);
}
#include "gpio_list.h"
/* Hibernate wake configuration */
const enum gpio_signal hibernate_wake_pins[] = {
GPIO_AC_PRESENT,
GPIO_LID_OPEN,
GPIO_POWER_BUTTON_L,
};
const int hibernate_wake_pins_used = ARRAY_SIZE(hibernate_wake_pins);
/* ADC channels */
const struct adc_t adc_channels[] = {
/* Vbus sensing (10x voltage divider). */
[ADC_VBUS] = {"VBUS", NPCX_ADC_CH2, ADC_MAX_VOLT*10, ADC_READ_MAX+1, 0},
/*
* Adapter current output or battery charging/discharging current (uV)
* 18x amplification on charger side.
*/
[ADC_AMON_BMON] = {"AMON_BMON", NPCX_ADC_CH1, ADC_MAX_VOLT*1000/18,
ADC_READ_MAX+1, 0},
};
BUILD_ASSERT(ARRAY_SIZE(adc_channels) == ADC_CH_COUNT);
/* I2C port map */
const struct i2c_port_t i2c_ports[] = {
{"i2c_0_0", NPCX_I2C_PORT0_0, 400, GPIO_I2C0_0_SCL, GPIO_I2C0_0_SDA},
{"i2c_0_1", NPCX_I2C_PORT0_1, 400, GPIO_I2C0_1_SCL, GPIO_I2C0_1_SDA},
{"i2c_1", NPCX_I2C_PORT1, 100, GPIO_I2C1_SCL, GPIO_I2C1_SDA},
{"i2c_2", NPCX_I2C_PORT2, 400, GPIO_I2C2_SCL, GPIO_I2C2_SDA},
{"i2c_3", NPCX_I2C_PORT3, 400, GPIO_I2C3_SCL, GPIO_I2C3_SDA},
};
const unsigned int i2c_ports_used = ARRAY_SIZE(i2c_ports);
/* Charger Chips */
const struct charger_config_t chg_chips[] = {
{
.i2c_port = I2C_PORT_CHARGER,
.i2c_addr_flags = ISL923X_ADDR_FLAGS,
.drv = &isl923x_drv,
},
};
/* TCPC mux configuration */
struct tcpc_config_t tcpc_config[CONFIG_USB_PD_PORT_MAX_COUNT] = {
[USB_PD_PORT_PS8751] = {
.bus_type = EC_BUS_TYPE_I2C,
.i2c_info = {
.port = I2C_PORT_TCPC1,
.addr_flags = PS8751_I2C_ADDR1_FLAGS,
},
.drv = &ps8xxx_tcpm_drv,
},
[USB_PD_PORT_ANX7447] = {
.bus_type = EC_BUS_TYPE_I2C,
.i2c_info = {
.port = I2C_PORT_TCPC0,
/* Verified on v1.1 */
.addr_flags = AN7447_TCPC3_I2C_ADDR_FLAGS,
},
.drv = &anx7447_tcpm_drv,
},
};
const struct usb_mux usb_muxes[CONFIG_USB_PD_PORT_MAX_COUNT] = {
[USB_PD_PORT_PS8751] = {
.usb_port = USB_PD_PORT_PS8751,
.driver = &tcpci_tcpm_usb_mux_driver,
.hpd_update = &ps8xxx_tcpc_update_hpd_status,
},
[USB_PD_PORT_ANX7447] = {
.usb_port = USB_PD_PORT_ANX7447,
.driver = &anx7447_usb_mux_driver,
.hpd_update = &anx7447_tcpc_update_hpd_status,
}
};
struct pi3usb9281_config pi3usb9281_chips[] = {
[USB_PD_PORT_PS8751] = {
.i2c_port = I2C_PORT_USB_CHARGER_1,
.mux_lock = NULL,
},
[USB_PD_PORT_ANX7447] = {
.i2c_port = I2C_PORT_USB_CHARGER_0,
.mux_lock = NULL,
},
};
BUILD_ASSERT(ARRAY_SIZE(pi3usb9281_chips) ==
CONFIG_BC12_DETECT_PI3USB9281_CHIP_COUNT);
const int usb_port_enable[CONFIG_USB_PORT_POWER_SMART_PORT_COUNT] = {
GPIO_EN_USB_A_5V,
};
void board_reset_pd_mcu(void)
{
/* Assert reset */
gpio_set_level(GPIO_USB_PD_RST_C0, 1);
gpio_set_level(GPIO_USB_C1_PD_RST_ODL, 0);
msleep(1);
gpio_set_level(GPIO_USB_PD_RST_C0, 0);
gpio_set_level(GPIO_USB_C1_PD_RST_ODL, 1);
/* After TEST_R release, anx7447/3447 needs 2ms to finish eFuse
* loading.
*/
msleep(2);
}
/*
* Read CBI data from EEPROM via i2c and remap the ps8751 i2c port
*/
static void ps8751_i2c_remap(void)
{
uint32_t board_version;
if (cbi_get_board_version(&board_version) != EC_SUCCESS ||
board_version > 1)
return;
/*
* Due to b/118063849, we separate the ps8751 and anx3447 to
* different i2c bus which start from board_version >= 2.
* For the board_version <= 1, the ps8751 and anx3447 TCPC
* use the same i2c bus. Thus, reconfig the ps8751 i2c port
* to i2c_0_0.
*/
tcpc_config[USB_PD_PORT_PS8751].i2c_info.port = I2C_PORT_TCPC0;
}
void board_tcpc_init(void)
{
ps8751_i2c_remap();
/* Only reset TCPC if not sysjump */
if (!system_jumped_late()) {
board_reset_pd_mcu();
}
/* Enable TCPC interrupts */
gpio_enable_interrupt(GPIO_USB_C0_PD_INT_ODL);
gpio_enable_interrupt(GPIO_USB_C1_PD_INT_ODL);
/*
* Initialize HPD to low; after sysjump SOC needs to see
* HPD pulse to enable video path
*/
for (int port = 0; port < CONFIG_USB_PD_PORT_MAX_COUNT; ++port)
usb_mux_hpd_update(port, USB_PD_MUX_HPD_LVL_DEASSERTED |
USB_PD_MUX_HPD_IRQ_DEASSERTED);
}
DECLARE_HOOK(HOOK_INIT, board_tcpc_init, HOOK_PRIO_INIT_I2C+1);
uint16_t tcpc_get_alert_status(void)
{
uint16_t status = 0;
if (!gpio_get_level(GPIO_USB_C0_PD_INT_ODL)) {
if (!gpio_get_level(GPIO_USB_PD_RST_C0))
status |= PD_STATUS_TCPC_ALERT_0;
}
if (!gpio_get_level(GPIO_USB_C1_PD_INT_ODL)) {
if (gpio_get_level(GPIO_USB_C1_PD_RST_ODL))
status |= PD_STATUS_TCPC_ALERT_1;
}
return status;
}
const struct temp_sensor_t temp_sensors[] = {
{"Battery", TEMP_SENSOR_TYPE_BATTERY, charge_get_battery_temp, 0},
/* These BD99992GW temp sensors are only readable in S0 */
{"Ambient", TEMP_SENSOR_TYPE_BOARD, bd99992gw_get_val,
BD99992GW_ADC_CHANNEL_SYSTHERM0},
{"Charger", TEMP_SENSOR_TYPE_BOARD, bd99992gw_get_val,
BD99992GW_ADC_CHANNEL_SYSTHERM1},
{"DRAM", TEMP_SENSOR_TYPE_BOARD, bd99992gw_get_val,
BD99992GW_ADC_CHANNEL_SYSTHERM2},
{"eMMC", TEMP_SENSOR_TYPE_BOARD, bd99992gw_get_val,
BD99992GW_ADC_CHANNEL_SYSTHERM3},
};
BUILD_ASSERT(ARRAY_SIZE(temp_sensors) == TEMP_SENSOR_COUNT);
/*
* Check if PMIC fault registers indicate VR fault. If yes, print out fault
* register info to console. Additionally, set panic reason so that the OS can
* check for fault register info by looking at offset 0x14(PWRSTAT1) and
* 0x15(PWRSTAT2) in cros ec panicinfo.
*/
static void board_report_pmic_fault(const char *str)
{
int vrfault, pwrstat1 = 0, pwrstat2 = 0;
uint32_t info;
/* RESETIRQ1 -- Bit 4: VRFAULT */
if (i2c_read8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x8, &vrfault)
!= EC_SUCCESS)
return;
if (!(vrfault & BIT(4)))
return;
/* VRFAULT has occurred, print VRFAULT status bits. */
/* PWRSTAT1 */
i2c_read8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x16, &pwrstat1);
/* PWRSTAT2 */
i2c_read8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x17, &pwrstat2);
CPRINTS("PMIC VRFAULT: %s", str);
CPRINTS("PMIC VRFAULT: PWRSTAT1=0x%02x PWRSTAT2=0x%02x", pwrstat1,
pwrstat2);
/* Clear all faults -- Write 1 to clear. */
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x8, BIT(4));
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x16, pwrstat1);
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x17, pwrstat2);
/*
* Status of the fault registers can be checked in the OS by looking at
* offset 0x14(PWRSTAT1) and 0x15(PWRSTAT2) in cros ec panicinfo.
*/
info = ((pwrstat2 & 0xFF) << 8) | (pwrstat1 & 0xFF);
panic_set_reason(PANIC_SW_PMIC_FAULT, info, 0);
}
static void board_pmic_disable_slp_s0_vr_decay(void)
{
/*
* VCCIOCNT:
* Bit 6 (0) - Disable decay of VCCIO on SLP_S0# assertion
* Bits 5:4 (11) - Nominal output voltage: 0.850V
* Bits 3:2 (10) - VR set to AUTO on SLP_S0# de-assertion
* Bits 1:0 (10) - VR set to AUTO operating mode
*/
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x30, 0x3a);
/*
* V18ACNT:
* Bits 7:6 (00) - Disable low power mode on SLP_S0# assertion
* Bits 5:4 (10) - Nominal voltage set to 1.8V
* Bits 3:2 (10) - VR set to AUTO on SLP_S0# de-assertion
* Bits 1:0 (10) - VR set to AUTO operating mode
*/
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x34, 0x2a);
/*
* V085ACNT:
* Bits 7:6 (00) - Disable low power mode on SLP_S0# assertion
* Bits 5:4 (11) - Nominal voltage 1.0V
* Bits 3:2 (10) - VR set to AUTO on SLP_S0# de-assertion
* Bits 1:0 (10) - VR set to AUTO operating mode
*/
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x38, 0x3a);
}
static void board_pmic_enable_slp_s0_vr_decay(void)
{
/*
* VCCIOCNT:
* Bit 6 (1) - Enable decay of VCCIO on SLP_S0# assertion
* Bits 5:4 (11) - Nominal output voltage: 0.850V
* Bits 3:2 (10) - VR set to AUTO on SLP_S0# de-assertion
* Bits 1:0 (10) - VR set to AUTO operating mode
*/
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x30, 0x7a);
/*
* V18ACNT:
* Bits 7:6 (01) - Enable low power mode on SLP_S0# assertion
* Bits 5:4 (10) - Nominal voltage set to 1.8V
* Bits 3:2 (10) - VR set to AUTO on SLP_S0# de-assertion
* Bits 1:0 (10) - VR set to AUTO operating mode
*/
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x34, 0x6a);
/*
* V085ACNT:
* Bits 7:6 (01) - Enable low power mode on SLP_S0# assertion
* Bits 5:4 (11) - Nominal voltage 1.0V
* Bits 3:2 (10) - VR set to AUTO on SLP_S0# de-assertion
* Bits 1:0 (10) - VR set to AUTO operating mode
*/
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x38, 0x7a);
}
__override void power_board_handle_host_sleep_event(
enum host_sleep_event state)
{
if (state == HOST_SLEEP_EVENT_S0IX_SUSPEND)
board_pmic_enable_slp_s0_vr_decay();
else if (state == HOST_SLEEP_EVENT_S0IX_RESUME)
board_pmic_disable_slp_s0_vr_decay();
}
static void board_pmic_init(void)
{
board_report_pmic_fault("SYSJUMP");
if (system_jumped_late())
return;
/*
* DISCHGCNT2 - enable 100 ohm discharge on
* V5A_DS3/V33A_DSW/V33A_PCH/V1.8A
*/
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x3d, 0x55);
/* DISCHGCNT3 - enable 100 ohm discharge on V1.8U_25U/V1.00A */
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x3e, 0x44);
/* DISCHGCNT4 - enable 100 ohm discharge on v1.8S */
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x3f, 0x04);
board_pmic_disable_slp_s0_vr_decay();
/* VRMODECTRL - disable low-power mode for all rails */
i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x3b, 0x1f);
}
DECLARE_DEFERRED(board_pmic_init);
/* Initialize board. */
static void board_init(void)
{
/*
* This enables pull-down on F_DIO1 (SPI MISO), and F_DIO0 (SPI MOSI),
* whenever the EC is not doing SPI flash transactions. This avoids
* floating SPI buffer input (MISO), which causes power leakage (see
* b/64797021).
*/
NPCX_PUPD_EN1 |= BIT(NPCX_DEVPU1_F_SPI_PUD_EN);
/* Provide AC status to the PCH */
gpio_set_level(GPIO_PCH_ACPRESENT, extpower_is_present());
/* Enable sensors power supply */
gpio_set_level(GPIO_EN_PP1800_DX_SENSOR, 1);
/* Enable VBUS interrupt */
gpio_enable_interrupt(GPIO_USB_C0_VBUS_DET_L);
gpio_enable_interrupt(GPIO_USB_C1_VBUS_DET_L);
/* Enable pericom BC1.2 interrupts */
gpio_enable_interrupt(GPIO_USB_C0_BC12_INT_L);
gpio_enable_interrupt(GPIO_USB_C1_BC12_INT_L);
/* Enable Gyro interrupts */
gpio_enable_interrupt(GPIO_BASE_SIXAXIS_INT_L);
/* Initialize PMIC */
hook_call_deferred(&board_pmic_init_data, 0);
}
DECLARE_HOOK(HOOK_INIT, board_init, HOOK_PRIO_DEFAULT);
static void usb_charge_mode_init(void)
{
/*
* By default, turn the charging off when system suspends.
* If system power on with connecting a USB device,
* the OS must send an event to EC to clear the
* inhibit_charging_in_suspend.
*/
usb_charge_set_mode(0, CONFIG_USB_PORT_POWER_SMART_DEFAULT_MODE,
USB_DISALLOW_SUSPEND_CHARGE);
}
DECLARE_HOOK(HOOK_INIT, usb_charge_mode_init, HOOK_PRIO_DEFAULT + 1);
/**
* Buffer the AC present GPIO to the PCH.
*/
static void board_extpower(void)
{
gpio_set_level(GPIO_PCH_ACPRESENT, extpower_is_present());
}
DECLARE_HOOK(HOOK_AC_CHANGE, board_extpower, HOOK_PRIO_DEFAULT);
/**
* Set active charge port -- only one port can be active at a time.
*
* @param charge_port Charge port to enable.
*
* Returns EC_SUCCESS if charge port is accepted and made active,
* EC_ERROR_* otherwise.
*/
int board_set_active_charge_port(int charge_port)
{
/* charge port is a physical port */
int is_real_port = (charge_port >= 0 &&
charge_port < CONFIG_USB_PD_PORT_MAX_COUNT);
/* check if we are source VBUS on the port */
int source = gpio_get_level(charge_port == 0 ? GPIO_USB_C0_5V_EN :
GPIO_USB_C1_5V_EN);
if (is_real_port && source) {
CPRINTF("Skip enable p%d", charge_port);
return EC_ERROR_INVAL;
}
CPRINTF("New chg p%d", charge_port);
if (charge_port == CHARGE_PORT_NONE) {
/* Disable both ports */
gpio_set_level(GPIO_EN_USB_C0_CHARGE_EC_L, 1);
gpio_set_level(GPIO_EN_USB_C1_CHARGE_EC_L, 1);
} else {
/* Make sure non-charging port is disabled */
gpio_set_level(charge_port ? GPIO_EN_USB_C0_CHARGE_EC_L :
GPIO_EN_USB_C1_CHARGE_EC_L, 1);
/* Enable charging port */
gpio_set_level(charge_port ? GPIO_EN_USB_C1_CHARGE_EC_L :
GPIO_EN_USB_C0_CHARGE_EC_L, 0);
}
return EC_SUCCESS;
}
/**
* Set the charge limit based upon desired maximum.
*
* @param port Port number.
* @param supplier Charge supplier type.
* @param charge_ma Desired charge limit (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)
{
/*
* Limit the input current to 96% negotiated limit,
* to account for the charger chip margin.
*/
charge_ma = charge_ma * 96 / 100;
charge_set_input_current_limit(
MAX(charge_ma, CONFIG_CHARGER_INPUT_CURRENT),
charge_mv);
}
void board_hibernate(void)
{
CPRINTS("Triggering PMIC shutdown.");
uart_flush_output();
/* Trigger PMIC shutdown. */
if (i2c_write8(I2C_PORT_PMIC, I2C_ADDR_BD99992_FLAGS, 0x49, 0x01)) {
/*
* If we can't tell the PMIC to shutdown, instead reset
* and don't start the AP. Hopefully we'll be able to
* communicate with the PMIC next time.
*/
CPRINTS("PMIC i2c failed.");
system_reset(SYSTEM_RESET_LEAVE_AP_OFF);
}
/* Await shutdown. */
while (1)
;
}
const struct pwm_t pwm_channels[] = {
/*
* 1.2kHz is a multiple of both 50 and 60. So a video recorder
* (generally designed to ignore either 50 or 60 Hz flicker) will not
* alias with refresh rate.
*/
[PWM_CH_KBLIGHT] = { 4, 0, 1200 },
};
BUILD_ASSERT(ARRAY_SIZE(pwm_channels) == PWM_CH_COUNT);
/* Lid Sensor mutex */
static struct mutex g_lid_mutex;
static struct mutex g_base_mutex;
static struct bmi_drv_data_t g_bmi160_data;
/* private data */
static struct accelgyro_saved_data_t g_bma255_data;
static struct kionix_accel_data g_kx022_data;
/* Matrix to rotate accelrator into standard reference frame */
const mat33_fp_t base_standard_ref = {
{ FLOAT_TO_FP(1), 0, 0 },
{ 0, FLOAT_TO_FP(-1), 0 },
{ 0, 0, FLOAT_TO_FP(-1) }
};
const mat33_fp_t lid_standard_ref = {
{ FLOAT_TO_FP(-1), 0, 0 },
{ 0, FLOAT_TO_FP(1), 0 },
{ 0, 0, FLOAT_TO_FP(-1) }
};
struct motion_sensor_t lid_accel_kx022 = {
.name = "Lid Accel",
.active_mask = SENSOR_ACTIVE_S0_S3,
.chip = MOTIONSENSE_CHIP_KX022,
.type = MOTIONSENSE_TYPE_ACCEL,
.location = MOTIONSENSE_LOC_LID,
.drv = &kionix_accel_drv,
.mutex = &g_lid_mutex,
.drv_data = &g_kx022_data,
.port = I2C_PORT_ACCEL,
.i2c_spi_addr_flags = KX022_ADDR1_FLAGS,
.rot_standard_ref = &lid_standard_ref,
.min_frequency = KX022_ACCEL_MIN_FREQ,
.max_frequency = KX022_ACCEL_MAX_FREQ,
.default_range = 2, /* g, to support lid angle calculation. */
.config = {
/* EC use accel for angle detection */
[SENSOR_CONFIG_EC_S0] = {
.odr = 10000 | ROUND_UP_FLAG,
.ec_rate = 0,
},
/* Sensor on in S3 */
[SENSOR_CONFIG_EC_S3] = {
.odr = 10000 | ROUND_UP_FLAG,
.ec_rate = 0,
},
},
};
struct motion_sensor_t motion_sensors[] = {
[LID_ACCEL] = {
.name = "Lid Accel",
.active_mask = SENSOR_ACTIVE_S0_S3,
.chip = MOTIONSENSE_CHIP_BMA255,
.type = MOTIONSENSE_TYPE_ACCEL,
.location = MOTIONSENSE_LOC_LID,
.drv = &bma2x2_accel_drv,
.mutex = &g_lid_mutex,
.drv_data = &g_bma255_data,
.port = I2C_PORT_ACCEL,
.i2c_spi_addr_flags = BMA2x2_I2C_ADDR1_FLAGS,
.rot_standard_ref = &lid_standard_ref,
.min_frequency = BMA255_ACCEL_MIN_FREQ,
.max_frequency = BMA255_ACCEL_MAX_FREQ,
.default_range = 2, /* g, to support lid angle calculation. */
.config = {
/* EC use accel for angle detection */
[SENSOR_CONFIG_EC_S0] = {
.odr = 10000 | ROUND_UP_FLAG,
.ec_rate = 0,
},
/* Sensor on in S3 */
[SENSOR_CONFIG_EC_S3] = {
.odr = 10000 | ROUND_UP_FLAG,
.ec_rate = 0,
},
},
},
[BASE_ACCEL] = {
.name = "Base Accel",
.active_mask = SENSOR_ACTIVE_S0_S3,
.chip = MOTIONSENSE_CHIP_BMI160,
.type = MOTIONSENSE_TYPE_ACCEL,
.location = MOTIONSENSE_LOC_BASE,
.drv = &bmi160_drv,
.mutex = &g_base_mutex,
.drv_data = &g_bmi160_data,
.port = I2C_PORT_ACCEL,
.i2c_spi_addr_flags = BMI160_ADDR0_FLAGS,
.rot_standard_ref = &base_standard_ref,
.min_frequency = BMI_ACCEL_MIN_FREQ,
.max_frequency = BMI_ACCEL_MAX_FREQ,
.default_range = 4, /* g, to meet CDD 7.3.1/C-1-4 reqs */
.config = {
/* EC use accel for angle detection */
[SENSOR_CONFIG_EC_S0] = {
.odr = 10000 | ROUND_UP_FLAG,
.ec_rate = 100 * MSEC,
},
/* Sensor on in S3 */
[SENSOR_CONFIG_EC_S3] = {
.odr = 10000 | ROUND_UP_FLAG,
.ec_rate = 0,
},
},
},
[BASE_GYRO] = {
.name = "Base Gyro",
.active_mask = SENSOR_ACTIVE_S0_S3,
.chip = MOTIONSENSE_CHIP_BMI160,
.type = MOTIONSENSE_TYPE_GYRO,
.location = MOTIONSENSE_LOC_BASE,
.drv = &bmi160_drv,
.mutex = &g_base_mutex,
.drv_data = &g_bmi160_data,
.port = I2C_PORT_ACCEL,
.i2c_spi_addr_flags = BMI160_ADDR0_FLAGS,
.default_range = 1000, /* dps */
.rot_standard_ref = &base_standard_ref,
.min_frequency = BMI_GYRO_MIN_FREQ,
.max_frequency = BMI_GYRO_MAX_FREQ,
},
};
const unsigned int motion_sensor_count = ARRAY_SIZE(motion_sensors);
static void board_detect_motionsense(void)
{
if (get_cbi_ssfc_lid_sensor() == SSFC_SENSOR_LID_KX022) {
motion_sensors[LID_ACCEL] = lid_accel_kx022;
ccprints("LID_ACCEL is KX022");
} else
ccprints("LID_ACCEL is BMA253");
}
DECLARE_HOOK(HOOK_INIT, board_detect_motionsense, HOOK_PRIO_DEFAULT);
/* Enable or disable input devices, based on chipset state and tablet mode */
__override void lid_angle_peripheral_enable(int enable)
{
/* If the lid is in 360 position, ignore the lid angle,
* which might be faulty. Disable keyboard.
*/
if (tablet_get_mode() || chipset_in_state(CHIPSET_STATE_ANY_OFF))
enable = 0;
keyboard_scan_enable(enable, KB_SCAN_DISABLE_LID_ANGLE);
}
static void board_chipset_reset(void)
{
board_report_pmic_fault("CHIPSET RESET");
}
DECLARE_HOOK(HOOK_CHIPSET_RESET, board_chipset_reset, HOOK_PRIO_DEFAULT);
/* Called on AP S3 -> S0 transition */
static void board_chipset_resume(void)
{
gpio_set_level(GPIO_ENABLE_BACKLIGHT, 1);
gpio_set_level(GPIO_KB_BL_EN, 1);
}
DECLARE_HOOK(HOOK_CHIPSET_RESUME, board_chipset_resume, HOOK_PRIO_DEFAULT);
/* Called on AP S0 -> S3 transition */
static void board_chipset_suspend(void)
{
gpio_set_level(GPIO_ENABLE_BACKLIGHT, 0);
gpio_set_level(GPIO_KB_BL_EN, 0);
}
DECLARE_HOOK(HOOK_CHIPSET_SUSPEND, board_chipset_suspend, HOOK_PRIO_DEFAULT);
/* Called on AP S5 -> S3 transition */
static void board_chipset_startup(void)
{
gpio_set_level(GPIO_EN_PP3300_TRACKPAD, 1);
}
DECLARE_HOOK(HOOK_CHIPSET_STARTUP, board_chipset_startup, HOOK_PRIO_DEFAULT);
/* Called on AP S3 -> S5 transition */
static void board_chipset_shutdown(void)
{
gpio_set_level(GPIO_EN_PP3300_TRACKPAD, 0);
}
DECLARE_HOOK(HOOK_CHIPSET_SHUTDOWN, board_chipset_shutdown, HOOK_PRIO_DEFAULT);
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