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b87fe062eca43fc00909098e716581bf2aeea7eb
OpenCellular/include/config.h
Shawn Nematbakhsh b87fe062ec charge_ramp: Move ramp allowed / ilim callbacks to common code 
The decision on whether to ramp (and how high) depends on the quirks of
charger identification, so move the decision out of board, into the
drivers that implement usb_charger.

Also, rename CONFIG_CHARGE_RAMP to CONFIG_CHARGE_RAMP_SW, to better
contrast with the existing CONFIG_CHARGE_RAMP_HW.

BUG=None
TEST=Manual on kevin, verify ramp occurs when port plugged into Z840
workstation.
BRANCH=None

Change-Id: I5b395274133837a18a4f4ac34b59b623287be175
Signed-off-by: Shawn Nematbakhsh <shawnn@chromium.org>
Reviewed-on: https://chromium-review.googlesource.com/702681
Commit-Ready: Shawn N <shawnn@chromium.org>
Tested-by: Shawn N <shawnn@chromium.org>
Reviewed-by: Vincent Palatin <vpalatin@chromium.org>
2017-10-06 13:47:12 -07:00

3101 lines
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/* Copyright 2016 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.
*/
/*
* config.h - Top-level configuration Chrome EC
*
* All configuration settings (CONFIG_*) are defined in this file or in a
* sub-configuration file (config_chip.h, board.h, etc.) included by this file.
*
* Note that this file is included by assembly (.S) files. Any C-isms such as
* struct definitions or enums in a sub-configuration file MUST be guarded with
* #ifndef __ASSEMBLER__ to prevent those C-isms from being evaluated by the
* assembler.
*/
#ifndef __CROS_EC_CONFIG_H
#define __CROS_EC_CONFIG_H
/*
* All config options are listed alphabetically and described here.
*
* If you add a new config option somewhere in the code, you must add a
* default value here and describe what it does.
*
* To get a list current list, run this command:
* git grep " CONFIG_" | grep -o "CONFIG_[A-Za-z0-9_]\+" | sort | uniq
*
* Some options are #defined here to enable them by default. Chips or boards
* may override this by #undef'ing them in config_chip.h or board.h,
* respectively.
*
* TODO(crosbug.com/p/23758): Describe all of these. Also describe the
* HAS_TASK_* macro and how/when it should be used vs. a config define. And
* BOARD_*, CHIP_*, and CHIP_FAMILY_*.
*/
/*
* Add support for sensor FIFO:
* define the size of the global fifo, must be a power of 2.
*/
#undef CONFIG_ACCEL_FIFO
/* The amount of free entries that trigger an interrupt to the AP. */
#undef CONFIG_ACCEL_FIFO_THRES
/*
* Sensors in this mask are in forced mode: they needed to be polled
* at their data rate frequency.
*/
#undef CONFIG_ACCEL_FORCE_MODE_MASK
/* Enable accelerometer interrupts. */
#undef CONFIG_ACCEL_INTERRUPTS
/*
* Support "spoof" mode for sensors. This allows sensors to have their values
* spoofed to any arbitrary value. This is useful for testing.
*/
#define CONFIG_ACCEL_SPOOF_MODE
/* Specify type of accelerometers attached. */
#undef CONFIG_ACCEL_BMA255
#undef CONFIG_ACCEL_KXCJ9
#undef CONFIG_ACCEL_KX022
#undef CONFIG_ACCEL_LIS2DH
#undef CONFIG_ACCELGYRO_LSM6DS0
#undef CONFIG_ACCELGYRO_BMI160
#undef CONFIG_ACCELGYRO_LSM6DSM
/* Support for BMI160 hardware orientation sensor */
#undef CONFIG_BMI160_ORIENTATION_SENSOR
/* Support for KIONIX KX022 hardware orientation sensor */
#undef CONFIG_KX022_ORIENTATION_SENSOR
/*
* Define if either CONFIG_BMI160_ORIENTATION_SUPPORT or
* CONFIG_KX022_ORIENTATION_SUPPORT is set.
*/
#undef CONFIG_ORIENTATION_SENSOR
/* Support the orientation gesture */
#undef CONFIG_GESTURE_ORIENTATION
/* Specify barometer attached */
#undef CONFIG_BARO_BMP280
/*
* Use the old standard reference frame for accelerometers. The old
* reference frame is:
* Z-axis: perpendicular to keyboard, pointing up, such that if the device
* is sitting flat on a table, the accel reads +G.
* X-axis: in the plane of the keyboard, pointing from the front lip to the
* hinge, such that if the device is oriented with the front lip touching
* the table and the hinge directly above, the accel reads +G.
* Y-axis: in the plane of the keyboard, pointing to the right, such that
* if the device is on it's left side, the accel reads +G.
*
* Also, in the old reference frame, the lid accel matches the base accel
* readings when lid is closed.
*/
#undef CONFIG_ACCEL_STD_REF_FRAME_OLD
/*
* Define the event to raise when BMI160 interrupt.
* Must be within TASK_EVENT_MOTION_INTERRUPT_MASK.
*/
#undef CONFIG_ACCELGYRO_BMI160_INT_EVENT
/* Set when INT2 is an ouptut */
#undef CONFIG_ACCELGYRO_BMI160_INT2_OUTPUT
/* Specify type of Gyrometers attached. */
#undef CONFIG_GYRO_L3GD20H
/*
* Define the event to raise when LIS2DH interrupt.
* Must be within TASK_EVENT_MOTION_INTERRUPT_MASK.
*/
#undef CONFIG_ACCEL_LIS2DH_INT_EVENT
/* Compile chip support for analog-to-digital convertor */
#undef CONFIG_ADC
/*
* ADC sample time selection. The value is chip-dependent.
* TODO: Replace this with CONFIG_ADC_PROFILE entries.
*/
#undef CONFIG_ADC_SAMPLE_TIME
/* Include the ADC analog watchdog feature in the ADC code */
#define CONFIG_ADC_WATCHDOG
/*
* Chip-dependent ADC configuration - select one.
* SINGLE - Sample all inputs once when requested.
* FAST_CONTINUOUS - Sample all inputs continuously using DMA, with minimal
* sample time.
*/
#define CONFIG_ADC_PROFILE_SINGLE
#undef CONFIG_ADC_PROFILE_FAST_CONTINUOUS
/*
* Some ALS modules may be connected to the EC. We need the command, and
* specific drivers for each module.
*/
#ifdef HAS_TASK_ALS
#define CONFIG_ALS
#else
#undef CONFIG_ALS
#endif
#undef CONFIG_ALS_AL3010
#undef CONFIG_ALS_ISL29035
#undef CONFIG_ALS_OPT3001
/* Define the exact model ID present on the board: SI1141 = 41, SI1142 = 42, */
#undef CONFIG_ALS_SI114X
/* Check if the device revision is supported */
#undef CONFIG_ALS_SI114X_CHECK_REVISION
/*
* Define the event to raise when BMI160 interrupt.
* Must be within TASK_EVENT_MOTION_INTERRUPT_MASK.
*/
#undef CONFIG_ALS_SI114X_INT_EVENT
/*
* Enable Si114x to operate in polling mode. This config is used in conjunction
* with CONFIG_ALS_SI114X_INT_EVENT. When polling is enabled, the read is
* initiated in the same manner as when interrupts are used, but the event which
* triggers the irq_handler is generated by deferred call using a fixed delay.
*/
#undef CONFIG_ALS_SI114X_POLLING
/* Define which ALS sensor is used for dimming the lightbar when dark */
#undef CONFIG_ALS_LIGHTBAR_DIMMING
/* Support AP hang detection host command and state machine */
#undef CONFIG_AP_HANG_DETECT
/* Support AP Warm reset Interrupt. */
#undef CONFIG_AP_WARM_RESET_INTERRUPT
/* Allow proprietary communication protocols' extensions. */
#undef CONFIG_EXTENSION_COMMAND
/*
* Support controlling the display backlight based on the state of the lid
* switch. The EC will disable the backlight when the lid is closed.
*/
#undef CONFIG_BACKLIGHT_LID
/*
* If defined, EC will enable the backlight signal only if this GPIO is
* asserted AND the lid is open. This supports passing the backlight-enable
* signal from the AP through EC.
*/
#undef CONFIG_BACKLIGHT_REQ_GPIO
/* Support base32 text encoding */
#undef CONFIG_BASE32
/*****************************************************************************/
/* Battery config */
/* Support a simple battery. */
#undef CONFIG_BATTERY
/*
* Compile battery-specific code.
*
* Note that some boards have their own unique battery constants / functions.
* In this case, those are provided in board/(boardname)/battery.c, and none of
* these are defined.
*/
#undef CONFIG_BATTERY_BQ20Z453
#undef CONFIG_BATTERY_BQ27541
#undef CONFIG_BATTERY_BQ27621
#undef CONFIG_BATTERY_MAX17055
#undef CONFIG_BATTERY_SAMUS
/* Compile mock battery support; used by tests. */
#undef CONFIG_BATTERY_MOCK
/* Maximum time to wake a non-responsive battery, in second */
#define CONFIG_BATTERY_PRECHARGE_TIMEOUT 30
/*
* If defined, the charger will check a board specific function for battery hw
* presence as an additional condition to determine if power on is allowed for
* factory override, where allowing booting of a bare board with no battery and
* no power button press is required.
*/
#undef CONFIG_BATTERY_HW_PRESENT_CUSTOM
/*
* If defined, the charger will check for battery presence before attempting
* to communicate with it. This avoids the 30 second delay when booting
* without a battery present. Do not use with CONFIG_BATTERY_PRESENT_GPIO.
*
* Replace the default battery_is_present() function with a board-specific
* implementation in board.c
*/
#undef CONFIG_BATTERY_PRESENT_CUSTOM
/*
* If defined, GPIO which is driven low when battery is present.
* Charger will check for battery presence before attempting to communicate
* with it. This avoids the 30 second delay when booting without a battery
* present. Do not use with CONFIG_BATTERY_PRESENT_CUSTOM.
*/
#undef CONFIG_BATTERY_PRESENT_GPIO
/*
* Compile smart battery support
*
* For batteries which support this specification:
* http://sbs-forum.org/specs/sbdat110.pdf)
*/
#undef CONFIG_BATTERY_SMART
/* Chemistry of the battery device */
#undef CONFIG_BATTERY_DEVICE_CHEMISTRY
/*
* Critical battery shutdown timeout (seconds)
*
* If the battery is at extremely low charge (and discharging) or extremely
* high temperature, the EC will shut itself down. This defines the timeout
* period in seconds between the critical condition being detected and the
* EC shutting itself down. Note that if the critical condition is corrected
* before the timeout expiration, the EC will not shut itself down.
*
*/
#define CONFIG_BATTERY_CRITICAL_SHUTDOWN_TIMEOUT 30
/* Perform a battery cut-off when we reach the battery critical level */
#undef CONFIG_BATTERY_CRITICAL_SHUTDOWN_CUT_OFF
/*
* Support battery cut-off as host command and console command.
*
* Once defined, you have to implement a board_cut_off_battery() function
* in board/???/battery.c file.
*/
#undef CONFIG_BATTERY_CUT_OFF
/*
* The default delay is 1 second. Define this if a board prefers
* different delay.
*/
#undef CONFIG_BATTERY_CUTOFF_DELAY_US
/*
* The board-specific battery.c implements get and set functions to read and
* write arbirary vendor-specific parameters stored in the battery.
* See include/battery.h for prototypes.
*/
#undef CONFIG_BATTERY_VENDOR_PARAM
/*
* TODO(crosbug.com/p/29467): allows charging of a dead battery that
* requests nil for current and voltage. Remove this workaround when
* possible.
*/
#undef CONFIG_BATTERY_REQUESTS_NIL_WHEN_DEAD
/*
* Check for battery in disconnect state (similar to cut-off state). If this
* battery is found to be in disconnect state, take it out of this state by
* force-applying a charge current.
*/
#undef CONFIG_BATTERY_REVIVE_DISCONNECT
/*
* Specify the battery percentage at which the host is told it is full.
* If this value is not specified the default is 97% set in battery.h.
*/
#undef CONFIG_BATTERY_LEVEL_NEAR_FULL
/*
* Expose some data when it is needed.
* For example, battery disconnect state
*/
#undef CONFIG_CHARGE_STATE_DEBUG
/* Include support for Bluetooth LE */
#undef CONFIG_BLUETOOTH_LE
/* Include support for testing the radio for Bluetooth LE */
#undef CONFIG_BLUETOOTH_LE_RADIO_TEST
/* Include support for the HCI and link layers for Bluetooth LE */
#undef CONFIG_BLUETOOTH_LE_STACK
/* Include debugging support for the Bluetooth link layer */
#undef CONFIG_BLUETOOTH_LL_DEBUG
/* Include debugging support for Bluetooth HCI */
#undef CONFIG_BLUETOOTH_HCI_DEBUG
/* Boot header storage offset. */
#undef CONFIG_BOOT_HEADER_STORAGE_OFF
/* Size of boot header in storage. */
#undef CONFIG_BOOT_HEADER_STORAGE_SIZE
/*****************************************************************************/
/* EC has GPIOs to allow board to reset RTC */
#undef CONFIG_BOARD_HAS_RTC_RESET
/*
* Call board_before_rsmrst(state) before passing RSMRST# to the AP.
* This is for board workarounds that are required after rails are up
* but before the AP is out of reset.
*/
#undef CONFIG_BOARD_HAS_BEFORE_RSMRST
/*
* Call board_config_post_gpio_init() after GPIOs are initialized. See
* include/board_config.h for more information.
*/
#undef CONFIG_BOARD_POST_GPIO_INIT
/*
* Call board_config_pre_init() before any inits are called. See
* include/board_config.h for more information.
*/
#undef CONFIG_BOARD_PRE_INIT
/* EC has GPIOs attached to board version stuffing resistors */
#undef CONFIG_BOARD_VERSION
/* The decoding of the GPIOs defining board version is defined in board code */
#undef CONFIG_BOARD_SPECIFIC_VERSION
/* EC responses to a board defined I2C slave address */
#undef CONFIG_BOARD_I2C_SLAVE_ADDR
/* Permanent LM4 boot configuration */
#undef CONFIG_BOOTCFG_VALUE
/*****************************************************************************/
/* Modify the default behavior to make system bringup easier. */
#undef CONFIG_BRINGUP
/*
* Enable debug prints / asserts that may helpful for debugging board bring-up,
* but probably shouldn't be enabled for production for performance reasons.
*/
#undef CONFIG_DEBUG_BRINGUP
/*****************************************************************************/
/*
* Number of extra buttons not on the keyboard scan matrix. Doesn't include
* the power button, which has its own handler.
*/
#undef CONFIG_BUTTON_COUNT
/*
* Support for entering recovery mode using volume buttons. You need to
* list the buttons in recovery_buttons.
*/
#undef CONFIG_BUTTON_RECOVERY
/*
* Indicates there is a dedicated recovery button.
*/
#undef CONFIG_DEDICATED_RECOVERY_BUTTON
/* The case close debug (CCD) feature is provided by an external chip. */
#undef CONFIG_CASE_CLOSED_DEBUG_EXTERNAL
/* Support V1 CCD configuration */
#undef CONFIG_CASE_CLOSED_DEBUG_V1
/* Allow unsafe debugging functionality in V1 configuration */
#undef CONFIG_CASE_CLOSED_DEBUG_V1_UNSAFE
/*
* Capsense chip has buttons, too.
*/
#undef CONFIG_CAPSENSE
/*****************************************************************************/
/* Compile charge manager */
#undef CONFIG_CHARGE_MANAGER
/* Number of charge ports excluding type-c ports */
#define CONFIG_DEDICATED_CHARGE_PORT_COUNT 0
/* Allow charge manager to default to charging from dual-role partners */
#undef CONFIG_CHARGE_MANAGER_DRP_CHARGING
/* Handle the external power limit host command in charge manager */
#undef CONFIG_CHARGE_MANAGER_EXTERNAL_POWER_LIMIT
/* The hardware has some input current ramping/back-off mechanism */
#undef CONFIG_CHARGE_RAMP_HW
/* Compile input current ramping support using software control */
#undef CONFIG_CHARGE_RAMP_SW
/*****************************************************************************/
/* Charger config */
/* Compile common charge state code. You must pick an implementation. */
#undef CONFIG_CHARGER
#undef CONFIG_CHARGER_V2
/* Compile charger-specific code for these chargers (pick at most one) */
#undef CONFIG_CHARGER_BD9995X
#undef CONFIG_CHARGER_BQ24707A
#undef CONFIG_CHARGER_BQ24715
#undef CONFIG_CHARGER_BQ24725
#undef CONFIG_CHARGER_BQ24735
#undef CONFIG_CHARGER_BQ24738
#undef CONFIG_CHARGER_BQ24770
#undef CONFIG_CHARGER_BQ24773
#undef CONFIG_CHARGER_BQ25890
#undef CONFIG_CHARGER_BQ25892
#undef CONFIG_CHARGER_BQ25895
#undef CONFIG_CHARGER_ISL9237
#undef CONFIG_CHARGER_ISL9238
#undef CONFIG_CHARGER_RT9466
#undef CONFIG_CHARGER_RT9467
/*
* Enable the CHG_EN at initialization to turn-on the BGATE which allows voltage
* to be applied to the battery PACK & wakes the battery if it is in shipmode.
*/
#undef CONFIG_CHARGER_BD9995X_CHGEN
/*
* BD9995X PD port to charger port mapping.
* By default VBUS is selected as primary port.
* Define only if the VCC is the primary port.
*/
#undef CONFIG_BD9995X_PRIMARY_CHARGE_PORT_VCC
/*
* BD9995X Power Save Mode
*
* Which power save mode should the charger enter when VBUS is removed. Check
* driver/bd9995x.h for the power save settings. By default, no power save mode
* is enabled.
*/
#undef CONFIG_BD9995X_POWER_SAVE_MODE
/*
* If the battery temperature sense pin is connected to charger,
* get the battery temperature from the charger.
*/
#undef CONFIG_CHARGER_BATTERY_TSENSE
/*
* BQ2589x IR Compensation settings.
* Should be the combination of BQ2589X_IR_TREG_xxxC, BQ2589X_IR_VCLAMP_yyyMV
* and BQ2589X_IR_BAT_COMP_zzzMOHM.
*/
#undef CONFIG_CHARGER_BQ2589X_IR_COMP
/*
* BQ2589x 5V boost current limit and voltage.
* Should be the combination of BQ2589X_BOOSTV_MV(voltage) and
* BQ2589X_BOOST_LIM_xxxMA.
*/
#undef CONFIG_CHARGER_BQ2589X_BOOST
/*
* Board specific charging current limit, in mA. If defined, the charge state
* machine will not allow the battery to request more current than this.
*/
#undef CONFIG_CHARGER_CURRENT_LIMIT
/* Enable/disable system power monitor PSYS function */
#undef CONFIG_CHARGER_PSYS
/*
* Board specific charging current termination limit, in mA. If defined and
* charger supports setting termination current it should be set during charger
* init.
*
* TODO(tbroch): Only valid for bq2589x currently. Configure defaults for other
* charger ICs that support termination currents.
*/
#undef CONFIG_CHARGER_TERM_CURRENT_LIMIT
/*
* Board supports discharge mode. In this mode, the battery will discharge
* even if AC is present. Used for testing.
*/
#undef CONFIG_CHARGER_DISCHARGE_ON_AC
/* Board has a custom discharge mode. */
#undef CONFIG_CHARGER_DISCHARGE_ON_AC_CUSTOM
/*
* Board specific flag used to disable external ILIM pin used to determine input
* current limit. When defined, the input current limit is decided only by
* the software register value.
*/
#undef CONFIG_CHARGER_ILIM_PIN_DISABLED
/*
* Default input current for the board, in mA.
*
* This value should depend on external power adapter, designed charging
* voltage, and the maximum power of the running system. For type-C chargers,
* this should be set to 512 mA in order to not brown-out low-current USB
* charge ports.
*/
#undef CONFIG_CHARGER_INPUT_CURRENT
/*
* Board specific maximum input current limit, in mA.
*/
#undef CONFIG_CHARGER_MAX_INPUT_CURRENT
/*
* Leave charger VBAT configured to battery-requested voltage under all
* conditions, even when AC is not present. This may be necessary to work
* around quirks of certain charger chips, such as the BD9995X.
*/
#undef CONFIG_CHARGER_MAINTAIN_VBAT
/* Minimum battery percentage for power on */
#undef CONFIG_CHARGER_MIN_BAT_PCT_FOR_POWER_ON
/* Narrow VDC power path */
#undef CONFIG_CHARGER_NARROW_VDC
/*
* Low energy thresholds - when battery level is below BAT_PCT and an external
* charger provides less than CHG_MW of power, inform the AP of the situation
* through the LIMIT_POWER host event.
*/
#undef CONFIG_CHARGER_LIMIT_POWER_THRESH_BAT_PCT
#undef CONFIG_CHARGER_LIMIT_POWER_THRESH_CHG_MW
/*
* Charger should call battery_override_params() to limit/correct the voltage
* and current requested by the battery pack before acting on the request.
*
* This is valid with CONFIG_CHARGER_V2 only.
*/
#undef CONFIG_CHARGER_PROFILE_OVERRIDE
/*
* Common code for charger profile override. Should be used with
* CONFIG_CHARGER_PROFILE_OVERRIDE.
*/
#undef CONFIG_CHARGER_PROFILE_OVERRIDE_COMMON
/*
* Battery voltage threshold ranges for charge profile override.
* Override it in board.h if battery has multiple threshold ranges.
*/
#define CONFIG_CHARGER_PROFILE_VOLTAGE_RANGES 2
/* Value of the charge sense resistor, in mOhms */
#undef CONFIG_CHARGER_SENSE_RESISTOR
/* Value of the input current sense resistor, in mOhms */
#undef CONFIG_CHARGER_SENSE_RESISTOR_AC
/*
* Board has an GPIO pin to enable or disable charging.
*
* This GPIO should be named GPIO_CHARGER_EN, if active high. Or
* GPIO_CHARGER_EN_L if active low.
*/
#undef CONFIG_CHARGER_EN_GPIO
/* Charger enable GPIO is active low */
#undef CONFIG_CHARGER_EN_ACTIVE_LOW
/* Enable trickle charging */
#undef CONFIG_TRICKLE_CHARGING
/*****************************************************************************/
/*
* Chip needs to do pre-init very early in main(), and provides chip_pre_init()
* to do so.
*/
#undef CONFIG_CHIP_PRE_INIT
/*****************************************************************************/
/* Chipset config */
/* AP chipset support; pick at most one */
#undef CONFIG_CHIPSET_APOLLOLAKE/* Intel Apollolake (x86) */
#undef CONFIG_CHIPSET_BRASWELL /* Intel Braswell (x86) */
#undef CONFIG_CHIPSET_CANNONLAKE /* Intel Cannonlake (x86) */
#undef CONFIG_CHIPSET_ECDRIVEN /* Dummy power module */
#undef CONFIG_CHIPSET_MEDIATEK /* MediaTek MT81xx */
#undef CONFIG_CHIPSET_RK3399 /* Rockchip rk3399 */
/* TODO: Rename below config to CONFIG_CHIPSET_RK32XX */
#undef CONFIG_CHIPSET_ROCKCHIP /* Rockchip rk32xx */
#undef CONFIG_CHIPSET_SKYLAKE /* Intel Skylake (x86) */
#undef CONFIG_CHIPSET_STONEY /* AMD Stoney (x86)*/
/* Support chipset throttling */
#undef CONFIG_CHIPSET_CAN_THROTTLE
/* Enable additional chipset debugging */
#undef CONFIG_CHIPSET_DEBUG
/* Enable chipset reset hook, requires a deferrable function */
#undef CONFIG_CHIPSET_RESET_HOOK
/* Support power rail control */
#define CONFIG_CHIPSET_HAS_PP1350
#define CONFIG_CHIPSET_HAS_PP5000
/* Support PMIC reset(using LDO_EN) in chipset */
#undef CONFIG_CHIPSET_HAS_PLATFORM_PMIC_RESET
/* Redefine when we need a different power-on sequence on the same chipset. */
#define CONFIG_CHIPSET_POWER_SEQ_VERSION 0
/*****************************************************************************/
/*
* Chip config for clock circuitry
* define = crystal / undef = oscillator
*/
#undef CONFIG_CLOCK_CRYSTAL
/* Indicate if a clock source is connected to stm32f4's "HSE" specific input */
#undef CONFIG_STM32_CLOCK_HSE_HZ
/*
* Chip config for clock source
* define = external crystal oscillator / undef = internal clock source
*/
#undef CONFIG_CLOCK_SRC_EXTERNAL
/*****************************************************************************/
/* Support curve25519 public key cryptography */
#undef CONFIG_CURVE25519
/*****************************************************************************/
/* PMIC config */
/* Support firmware long press power-off timer */
#undef CONFIG_PMIC_FW_LONG_PRESS_TIMER
/* Support PMIC power control */
#undef CONFIG_PMIC
/*****************************************************************************/
/*
* Optional console commands
*
* Defining these options will enable the corresponding command on the EC
* console.
*/
#undef CONFIG_CMD_ACCELS
#undef CONFIG_CMD_ACCEL_FIFO
#undef CONFIG_CMD_ACCEL_INFO
#define CONFIG_CMD_ACCELSPOOF
#undef CONFIG_CMD_ALS
#define CONFIG_CMD_APTHROTTLE
#undef CONFIG_CMD_BATDEBUG
#define CONFIG_CMD_BATTFAKE
#undef CONFIG_CMD_BATT_MFG_ACCESS
#undef CONFIG_CMD_BUTTON
#undef CONFIG_CMD_CCD_DISABLE /* 'ccd disable' subcommand */
#define CONFIG_CMD_CHARGER
#undef CONFIG_CMD_CHARGER_ADC_AMON_BMON
#undef CONFIG_CMD_CHARGER_PROFILE_OVERRIDE
#undef CONFIG_CMD_CHARGER_PROFILE_OVERRIDE_TEST
#undef CONFIG_CMD_CHARGER_PSYS
#define CONFIG_CMD_CHARGE_SUPPLIER_INFO
#undef CONFIG_CMD_CHGRAMP
#undef CONFIG_CMD_CLOCKGATES
#undef CONFIG_CMD_COMXTEST
#define CONFIG_CMD_CRASH
#define CONFIG_CMD_DEVICE_EVENT
#undef CONFIG_CMD_ECTEMP
#define CONFIG_CMD_FASTCHARGE
#undef CONFIG_CMD_FLASH
#undef CONFIG_CMD_FLASH_TRISTATE
#undef CONFIG_CMD_FORCETIME
#undef CONFIG_CMD_GPIO_EXTENDED
#undef CONFIG_CMD_GSV
#define CONFIG_CMD_HASH
#define CONFIG_CMD_HCDEBUG
#undef CONFIG_CMD_HOSTCMD
#undef CONFIG_CMD_I2CWEDGE
#undef CONFIG_CMD_I2C_PROTECT
#define CONFIG_CMD_I2C_SCAN
#undef CONFIG_CMD_I2C_STRESS_TEST
#undef CONFIG_CMD_I2C_STRESS_TEST_ACCEL
#undef CONFIG_CMD_I2C_STRESS_TEST_ALS
#undef CONFIG_CMD_I2C_STRESS_TEST_BATTERY
#undef CONFIG_CMD_I2C_STRESS_TEST_CHARGER
#undef CONFIG_CMD_I2C_STRESS_TEST_TCPC
#define CONFIG_CMD_I2C_XFER
#define CONFIG_CMD_IDLE_STATS
#undef CONFIG_CMD_ILIM
#define CONFIG_CMD_INA
#undef CONFIG_CMD_JUMPTAGS
#define CONFIG_CMD_KEYBOARD
#undef CONFIG_CMD_LID_ANGLE
#undef CONFIG_CMD_MCDP
#define CONFIG_CMD_MD
#define CONFIG_CMD_MEM
#define CONFIG_CMD_MMAPINFO
#define CONFIG_CMD_PD
#undef CONFIG_CMD_PD_CONTROL
#undef CONFIG_CMD_PD_DEV_DUMP_INFO
#undef CONFIG_CMD_PD_FLASH
#undef CONFIG_CMD_PLL
#undef CONFIG_CMD_PMU
#define CONFIG_CMD_POWERINDEBUG
#undef CONFIG_CMD_POWERLED
#define CONFIG_CMD_POWER_AP
#define CONFIG_CMD_REGULATOR
#undef CONFIG_CMD_RTC
#undef CONFIG_CMD_RTC_ALARM
#define CONFIG_CMD_RW
#undef CONFIG_CMD_SCRATCHPAD
#define CONFIG_CMD_SHMEM
#undef CONFIG_CMD_SLEEP
#define CONFIG_CMD_SLEEPMASK
#undef CONFIG_CMD_SPI_FLASH
#undef CONFIG_CMD_SPI_NOR
#undef CONFIG_CMD_SPI_XFER
#undef CONFIG_CMD_STACKOVERFLOW
#define CONFIG_CMD_SYSINFO
#define CONFIG_CMD_SYSJUMP
#define CONFIG_CMD_SYSLOCK
#undef CONFIG_CMD_TASKREADY
#define CONFIG_CMD_TEMP_SENSOR
#define CONFIG_CMD_TIMERINFO
#undef CONFIG_CMD_TPM_LOG
#define CONFIG_CMD_TYPEC
#undef CONFIG_CMD_USART_INFO
#define CONFIG_CMD_USBMUX
#undef CONFIG_CMD_USB_PD_PE
#define CONFIG_CMD_WAITMS
/*****************************************************************************/
/* Provide common core code to output panic information without interrupts. */
#define CONFIG_COMMON_PANIC_OUTPUT
/*
* Store a panic log and halt the system for a software-related reasons, such as
* stack overflow or assertion failure.
*/
#undef CONFIG_SOFTWARE_PANIC
/*
* Certain platforms(e.g. eve, poppy) cannot retain panic info in data ram since
* VCC is powered down on EC reset. On such platforms, panic data needs to be
* saved/restored to persistent storage by using chip specific
* implementations. This option can be enabled by those platforms that have and
* wish to use chip-implemented panic backup/restore functions.
*/
#undef CONFIG_CHIP_PANIC_BACKUP
/*
* Provide the default GPIO abstraction layer.
* You want this unless you are doing a really tiny firmware.
*/
#define CONFIG_COMMON_GPIO
/*
* Provides smaller GPIO names to reduce flash size. Instead of the 'name'
* field in GPIO macro it will concat 'port' and 'pin' to reduce flash size.
*/
#undef CONFIG_COMMON_GPIO_SHORTNAMES
/*
* Provide common runtime layer code (tasks, hooks ...)
* You want this unless you are doing a really tiny firmware.
*/
#define CONFIG_COMMON_RUNTIME
/* Provide common core code to handle the operating system timers. */
#define CONFIG_COMMON_TIMER
/*****************************************************************************/
/*
* Provide additional help on console commands, such as the supported
* options/usage.
*
* Boards may #undef this to reduce image size.
*/
#define CONFIG_CONSOLE_CMDHELP
/*
* Add a .flags field to the console commands data structure, to distinguish
* some commands from others. The available flags bits are defined in
* include/console.h
*/
#undef CONFIG_CONSOLE_COMMAND_FLAGS
/*
* One use of the .flags field is to make some console commands restricted, so
* that they can be disabled or enabled at run time.
*/
#undef CONFIG_RESTRICTED_CONSOLE_COMMANDS
/* The default .flags field value is zero, unless overridden with this. */
#undef CONFIG_CONSOLE_COMMAND_FLAGS_DEFAULT
/*
* Enable EC_CMD_CONSOLE_READ V1. One could disable this config to prevent
* kernel from creating the `console_log` debugfs entry.
*/
#define CONFIG_CONSOLE_ENABLE_READ_V1
/*
* Number of entries in console history buffer.
*
* Boards may #undef this to reduce memory usage.
*/
#define CONFIG_CONSOLE_HISTORY 8
/* Max length of a single line of input */
#define CONFIG_CONSOLE_INPUT_LINE_SIZE 80
/* Enable verbose output to UART console and extra timestamp print precision. */
#define CONFIG_CONSOLE_VERBOSE
/*
* Enable the experimental console.
*
* NOTE: If you enable this experimental console, you will need to run the
* EC-3PO interactive console in the util directory! Otherwise, you won't be
* able to enter any commands.
*/
#undef CONFIG_EXPERIMENTAL_CONSOLE
/* Include CRC-8 utility function */
#undef CONFIG_CRC8
/*
* When enabled, do not build RO image from the same set of files as the RW
* image. Instead define a separate set of object files in the respective
* build.mk files by adding the objects to the custom-ro_objs-y variable.
*/
#undef CONFIG_CUSTOMIZED_RO
/*
* When enabled, build in support for software & hardware crypto;
* only supported on CR50.
*/
#undef CONFIG_DCRYPTO
/*
* When enabled, accelerate sha512 using the generic crypto engine;
* only supported on CR50
*/
#undef CONFIG_DCRYPTO_SHA512
/*
* When enabled build support for SHA-384/512, requires CONFIG_DCRYPTO.
*/
#undef CONFIG_UPTO_SHA512
/*****************************************************************************/
/*
* Debugging config
*
* Note that these options are enabled by default, because they're really
* handy for debugging systems during bringup and even at factory time.
*
* A board may undefine any or all of these to reduce image size and RAM usage,
* at the cost of debuggability.
*/
/*
* ASSERT() macros are checked at runtime. See CONFIG_DEBUG_ASSERT_REBOOTS
* to see what happens if one fails.
*
* Boards may #undef this to reduce image size.
*/
#define CONFIG_DEBUG_ASSERT
/*
* Prints a message and reboots if an ASSERT() macro fails at runtime. When
* enabled, an ASSERT() which fails will produce a message of the form:
*
* ASSERTION FAILURE '<expr>' in function() at file:line
*
* If this is not defined, failing ASSERT() will trigger a BKPT instruction
* instead.
*
* Ignored if CONFIG_DEBUG_ASSERT is not defined.
*
* Boards may #undef this to reduce image size.
*/
#define CONFIG_DEBUG_ASSERT_REBOOTS
/*
* On assertion failure, prints only the file name and the line number.
*
* Ignored if CONFIG_DEBUG_ASSERT_REBOOTS is not defined.
*
* Boards may define this to reduce image size.
*/
#undef CONFIG_DEBUG_ASSERT_BRIEF
/*
* Disable the write buffer used for default memory map accesses.
* This turns "Imprecise data bus errors" into "Precise" errors
* in exception traces at the cost of some performance.
* This may help identify the offending instruction causing an
* exception. Supported on cortex-m.
*/
#undef CONFIG_DEBUG_DISABLE_WRITE_BUFFER
/*
* Print additional information when exceptions are triggered, such as the
* fault address, here shown as bfar. This shows the reason for the fault
* and may help to determine the cause.
*
* === EXCEPTION: 03 ====== xPSR: 01000000 ===========
* r0 :0000000b r1 :00000047 r2 :60000000 r3 :200013dd
* r4 :00000000 r5 :080053f4 r6 :200013d0 r7 :00000002
* r8 :00000000 r9 :200013de r10:00000000 r11:00000000
* r12:00000000 sp :200009a0 lr :08002b85 pc :08003a8a
* Precise data bus error, Forced hard fault, Vector catch, bfar = 60000000
* mmfs = 00008200, shcsr = 00000000, hfsr = 40000000, dfsr = 00000008
*
* If this is not defined, only a register dump will be printed.
*
* Boards may #undef this to reduce image size.
*/
#define CONFIG_DEBUG_EXCEPTIONS
/*
* Print orientation when device orientation changes
* (requires CONFIG_SENSOR_ORIENTATION)
*/
#undef CONFIG_DEBUG_ORIENTATION
/* Support Synchronous UART debug printf. */
#undef CONFIG_DEBUG_PRINTF
/* Check for stack overflows on every context switch */
#define CONFIG_DEBUG_STACK_OVERFLOW
/*****************************************************************************/
/* Support events from devices attached to the EC */
#undef CONFIG_DEVICE_EVENT
/* Monitor the states of other devices */
#undef CONFIG_DEVICE_STATE
/* Support DMA transfers inside the EC */
#undef CONFIG_DMA
/* Use the common interrupt handlers for DMA IRQs */
#define CONFIG_DMA_DEFAULT_HANDLERS
/* Compile extra debugging and tests for the DMA module */
#undef CONFIG_DMA_HELP
/* Support EC to Internal bus bridge. */
#undef CONFIG_EC2I
/* EC capable of sensor speeds up to 200000 mHz */
#define CONFIG_EC_MAX_SENSOR_FREQ_MILLIHZ 200000
/*
* Allow board to override the feature bitmap provided through host command
* and ACPI.
*/
#undef CONFIG_EC_FEATURE_BOARD_OVERRIDE
/* Support EC chip internal data EEPROM */
#undef CONFIG_EEPROM
/*
* Support for sending emulated sysrq events to AP (on designs with a keyboard,
* sysrq is passed as normal key presses).
*/
#undef CONFIG_EMULATED_SYSRQ
/* Support for eSPI for host communication */
#undef CONFIG_ESPI
/* Use Virtual Wire signals instead of GPIO with eSPI interface */
#undef CONFIG_ESPI_VW_SIGNALS
/* Include code for handling external power */
#define CONFIG_EXTPOWER
/* Support detecting external power presence via a GPIO */
#undef CONFIG_EXTPOWER_GPIO
/* Default debounce time for external power signal */
#define CONFIG_EXTPOWER_DEBOUNCE_MS 30
/*****************************************************************************/
/* Number of cooling fans. Undef if none. */
#undef CONFIG_FANS
/* Support fan control while in low-power idle */
#undef CONFIG_FAN_DSLEEP
/*
* Replace the default fan_percent_to_rpm() function with a board-specific
* implementation in board.c
*/
#undef CONFIG_FAN_RPM_CUSTOM
/*
* We normally check and update the fans once per second (HOOK_SECOND). If this
* is #defined to a postive integer N, we will only update the fans every N
* seconds instead.
*/
#undef CONFIG_FAN_UPDATE_PERIOD
/* Send event when mode change, host read acpi memory and select DPTF table */
#undef CONFIG_DPTF_DEVICE_ORIENTATION
/*****************************************************************************/
/* Flash configuration */
/* This enables console commands and higher-level features */
#define CONFIG_FLASH
/* This enables chip-specific access functions */
#define CONFIG_FLASH_PHYSICAL
#undef CONFIG_FLASH_BANK_SIZE
#undef CONFIG_FLASH_ERASED_VALUE32
#undef CONFIG_FLASH_ERASE_SIZE
#undef CONFIG_FLASH_ROW_SIZE
/* Allow deferred (async) flash erase */
#undef CONFIG_FLASH_DEFERRED_ERASE
/* Flash must be selected for write/erase operations to succeed. */
#undef CONFIG_FLASH_SELECT_REQUIRED
/* Base address of program memory */
#undef CONFIG_PROGRAM_MEMORY_BASE
/*
* EC code can reside on internal or external storage. Only one of these
* CONFIGs should be defined.
*/
#undef CONFIG_EXTERNAL_STORAGE
#undef CONFIG_INTERNAL_STORAGE
/*
* Flash is directly mapped into the EC's address space. If this is not
* defined, the flash driver must implement flash_physical_read().
*/
#define CONFIG_MAPPED_STORAGE
/*
* Base address of memory-mapped flash storage, for platforms which define
* CONFIG_MAPPED_STORAGE.
*/
#undef CONFIG_MAPPED_STORAGE_BASE
#undef CONFIG_FLASH_PROTECT_NEXT_BOOT
/*
* Some platforms need to write protect RW independently of all flash.
*/
#undef CONFIG_FLASH_PROTECT_RW
/*
* Store persistent write protect for the flash inside the flash data itself.
* This allows ECs with internal flash to emulate something closer to a SPI
* flash write protect register. If this is not defined, write protect state
* is maintained solely by the physical flash driver.
*/
#define CONFIG_FLASH_PSTATE
/*
* Store the pstate data in its own dedicated bank of flash. This allows
* disabling the protect-RO-at-boot flag without rewriting the RO firmware,
* but costs a bank of flash.
*
* If this is not defined, the pstate data is stored inside the RO firmware
* image itself. This is more space-efficient, but the only way to clear the
* flag once it's set is to rewrite the RO firmware (after removing the WP
* screw, of course).
*/
#define CONFIG_FLASH_PSTATE_BANK
/*
* Lock the PSTATE by default (currently only supported when
* CONFIG_FLASH_PSTATE_BANK is not defined).
*/
#undef CONFIG_FLASH_PSTATE_LOCKED
/*
* For flash that is segemented in different regions.
*/
#undef CONFIG_FLASH_MULTIPLE_REGION
/* Number of regions of different size/type */
#undef CONFIG_FLASH_REGION_TYPE_COUNT
/* Total size of writable flash */
#undef CONFIG_FLASH_SIZE
/* Minimum flash write size (in bytes) */
#undef CONFIG_FLASH_WRITE_SIZE
/* Most efficient flash write size (in bytes) */
#undef CONFIG_FLASH_WRITE_IDEAL_SIZE
/* Protected region of storage belonging to EC */
#undef CONFIG_EC_PROTECTED_STORAGE_OFF
#undef CONFIG_EC_PROTECTED_STORAGE_SIZE
/* Writable region of storage belonging to EC */
#undef CONFIG_EC_WRITABLE_STORAGE_OFF
#undef CONFIG_EC_WRITABLE_STORAGE_SIZE
/* Enable robust non-volatile counter in flash */
#undef CONFIG_FLASH_NVCOUNTER
/* Address of start of the NVcounter flash page */
#undef CONFIG_FLASH_NVCTR_BASE_A
#undef CONFIG_FLASH_NVCTR_BASE_B
/*****************************************************************************/
/* NvMem Configuration */
/* Enable NV Memory module within flash */
#undef CONFIG_FLASH_NVMEM
/* Offset to start of NvMem area from base of flash */
#undef CONFIG_FLASH_NVMEM_OFFSET_A
#undef CONFIG_FLASH_NVMEM_OFFSET_B
/* Address of start of Nvmem area */
#undef CONFIG_FLASH_NVMEM_BASE_A
#undef CONFIG_FLASH_NVMEM_BASE_B
/* Size in bytes of NvMem area */
#undef CONFIG_FLASH_NVMEM_SIZE
/* Enable <key,value> variable support (requires CONFIG_FLASH_NVMEM) */
#undef CONFIG_FLASH_NVMEM_VARS
/*
* We already have to define nvmem_user_sizes[] to specify the order and size
* of the user regions. CONFIG_FLASH_NVMEM_VARS looks for two symbols to
* specify the region number and size for the variable region.
*/
#undef CONFIG_FLASH_NVMEM_VARS_USER_NUM
#undef CONFIG_FLASH_NVMEM_VARS_USER_SIZE
/*****************************************************************************/
/* Include a flashmap in the compiled firmware image */
#define CONFIG_FMAP
/* Allow EC serial console input to wake up the EC from STOP mode */
#undef CONFIG_FORCE_CONSOLE_RESUME
/* Enable support for floating point unit */
#undef CONFIG_FPU
/*****************************************************************************/
/* Firmware region configuration */
#undef CONFIG_FW_PSTATE_OFF
#undef CONFIG_FW_PSTATE_SIZE
/*
* Reuse the space that was occupied in RAM by the little firmware (LFW) loader
* with the section ".bss.slow" instead.
*/
#undef CONFIG_REPLACE_LOADER_WITH_BSS_SLOW
/*
* Read-only / read-write image configuration.
* Images may reside on storage (ex. external or internal SPI) at a different
* offset than when copied to program memory. Hence, two sets of offsets,
* for STORAGE and for MEMORY.
*/
#undef CONFIG_RO_MEM_OFF
/* Offset relative to CONFIG_EC_PROTECTED_STORAGE_OFF */
#undef CONFIG_RO_STORAGE_OFF
#undef CONFIG_RO_SIZE
#undef CONFIG_RW_MEM_OFF
/* Some targets include two RW sections in the image. */
#undef CONFIG_RW_B
/* This is the offset of the second RW section into the flash. */
#undef CONFIG_RW_B_MEM_OFF
/* Offset relative to CONFIG_EC_WRITABLE_STORAGE_OFF */
#undef CONFIG_RW_STORAGE_OFF
#undef CONFIG_RW_SIZE
/*
* NPCX-specific bootheader geometry.
* TODO(crosbug.com/p/23796): Factor these CONFIGs out.
*/
#undef CONFIG_RO_HDR_MEM_OFF
#undef CONFIG_RO_HDR_SIZE
/*
* Write protect region offset / size. This region normally encompasses the
* RO image, but may also contain additional images or data.
*/
#undef CONFIG_WP_STORAGE_OFF
#undef CONFIG_WP_STORAGE_SIZE
/*
* Rollback protect region. If CONFIG_ROLLBACK is defined to enable the rollback
* protect region, CONFIG_ROLLBACK_OFF and CONFIG_ROLLBACK_SIZE must be defined
* too.
*/
#undef CONFIG_ROLLBACK
#undef CONFIG_ROLLBACK_OFF
#undef CONFIG_ROLLBACK_SIZE
/* If defined, add support for storing some entropy in the rollback region. */
#undef CONFIG_ROLLBACK_SECRET_SIZE
/*
* If defined, inject some locally generated entropy when secret is updated,
* using board_get_entropy function.
* Large values may take a long time to generate.
*/
#undef CONFIG_ROLLBACK_SECRET_LOCAL_ENTROPY_SIZE
/* If defined, we can update rollback information (RW can unset this). */
#define CONFIG_ROLLBACK_UPDATE
/*
* Current rollback version. Meaningless for RO (but provides the minimum value
* that will be written to the rollback protection at flash time).
*
* For RW, rollback version included in version structure, used by RO to
* determine if the RW image is recent enough and can be jumped to.
*
* Valid values are >= 0, <= INT32_MAX (positive, 32-bit signed integer).
*/
#define CONFIG_ROLLBACK_VERSION 0
/*
* Board Image ec.bin contains a RO firmware. If not defined, the image will
* only contain the RW firmware. The RO firmware comes from another board.
*/
#define CONFIG_FW_INCLUDE_RO
/* If defined, another image (RW) exists with more features */
#undef CONFIG_FW_LIMITED_IMAGE
/*
* If defined, we can use system_get_fw_reset_vector function to decide
* reset vector of RO/RW firmware for sysjump.
*/
#undef CONFIG_FW_RESET_VECTOR
/*****************************************************************************/
/* Motion sensor based gesture recognition information */
/* These all require HAS_TASK_MOTIONSENSE to work */
/* Do we want to detect gestures? */
#undef CONFIG_GESTURE_DETECTION
/* Mask of all sensors used for gesture dectections */
#undef CONFIG_GESTURE_DETECTION_MASK
/* some gesture recognition done in software */
#undef CONFIG_GESTURE_SW_DETECTION
/* enable gesture host interface */
#undef CONFIG_GESTURE_HOST_DETECTION
/* Sensor sampling interval for gesture recognition */
#undef CONFIG_GESTURE_SAMPLING_INTERVAL_MS
/* Which sensor to look for battery tap recognition */
#undef CONFIG_GESTURE_SENSOR_BATTERY_TAP
/*
* Double tap detection parameters
* Double tap works by looking for two isolated Z-axis accelerometer impulses
* preceded and followed by relatively calm periods of accelerometer motion.
*
* Define an outer and inner window. The inner window specifies how
* long the tap impulse is expected to last. The outer window specifies the
* period before the initial tap impluse and after the final tap impulse for
* which to check for relatively calm periods. In between the two impulses
* there is a minimum and maximum interstice time allowed.
*
* Define an acceleration threshold to dectect a tap, in mg.
*/
#undef CONFIG_GESTURE_TAP_OUTER_WINDOW_T
#undef CONFIG_GESTURE_TAP_INNER_WINDOW_T
#undef CONFIG_GESTURE_TAP_MIN_INTERSTICE_T
#undef CONFIG_GESTURE_TAP_MAX_INTERSTICE_T
#undef CONFIG_GESTURE_TAP_THRES_MG
/* Event generated when battery tap is detected */
#undef CONFIG_GESTURE_TAP_EVENT
/* Which sensor to look for significant motion activity */
#undef CONFIG_GESTURE_SIGMO
/*
* Significant motion parameters
* Sigmo state machine looks for movement, waits skip milli-seconds,
* and check for movement again with proof milli-seconds.
*/
#undef CONFIG_GESTURE_SIGMO_PROOF_MS
#undef CONFIG_GESTURE_SIGMO_SKIP_MS
#undef CONFIG_GESTURE_SIGMO_THRES_MG
/* Event generated when significant motion is detected. */
#undef CONFIG_GESTURE_SIGMO_EVENT
/* Do we want to detect the lid angle? */
#undef CONFIG_LID_ANGLE
/*
* Add code for preventing 0 and 360 degree transition. Needed when
* Device supports tablet mode.
*/
#undef CONFIG_LID_ANGLE_INVALID_CHECK
/*
* Use lid angle to detect tablet mode.
*/
#undef CONFIG_LID_ANGLE_TABLET_MODE
/* Which sensor is located on the base? */
#undef CONFIG_LID_ANGLE_SENSOR_BASE
/* Which sensor is located on the lid? */
#undef CONFIG_LID_ANGLE_SENSOR_LID
/*
* Allows using the lid angle measurement to determine if peripheral devices
* should be enabled or disabled, like key scanning, trackpad interrupt.
*/
#undef CONFIG_LID_ANGLE_UPDATE
/*
* During shutdown sequence sensor rails can be powered down asynchronously
* to the EC hence EC cannot interlock the sensor states with the power down
* states. To avoid this issue, defer switching the sensors rate with a
* configurable delay if in S3. By the time deferred function is serviced,
* if the chipset is in S5 we can back out from switching the sensor rate.
*/
#define CONFIG_MOTION_SENSE_SUSPEND_DELAY_US 0
/******************************************************************************/
/* Host to RAM (H2RAM) Memory Mapping */
/* H2RAM Base memory address */
#undef CONFIG_H2RAM_BASE
/* H2RAM Size */
#undef CONFIG_H2RAM_SIZE
/* H2RAM Host LPC I/O base memory address */
#undef CONFIG_H2RAM_HOST_LPC_IO_BASE
/* ISH boot start address */
#undef CONFIG_ISH_BOOT_START
/*
* Define the minimal amount of time (in ms) betwen running motion sense task
* loop.
*/
#define CONFIG_MOTION_MIN_SENSE_WAIT_TIME 3
/*****************************************************************************/
/*
* Support the host asking the EC about the status of the most recent host
* command.
*
* When the AP is attached to the EC via a serialized bus such as I2C or SPI,
* it needs a way to minimize the length of time an EC command will tie up the
* bus (and the kernel driver on the AP). If this config is defined, the EC
* may return an in-progress result code for slow commands such as flash
* erase/write instead of stalling until the command finishes processing, and
* the AP may then inquire the status of the current command and/or the result
* of the previous command.
*/
#undef CONFIG_HOST_COMMAND_STATUS
/* clear bit(s) to mask reporting of an EC_HOST_EVENT_XXX event(s) */
#define CONFIG_HOST_EVENT_REPORT_MASK 0xffffffff
/*
* The host commands are sorted in the .rodata.hcmds section so use the binary
* search algorithm to match a command to its handler
*/
#undef CONFIG_HOSTCMD_SECTION_SORTED
/*
* Host command parameters and response are 32-bit aligned. This generates
* much more efficient code on ARM.
*/
#undef CONFIG_HOSTCMD_ALIGNED
/* Default hcdebug mode, e.g. HCDEBUG_OFF or HCDEBUG_NORMAL */
#define CONFIG_HOSTCMD_DEBUG_MODE HCDEBUG_NORMAL
/* If we have host command task, assume we also are using host events. */
#ifdef HAS_TASK_HOSTCMD
#define CONFIG_HOSTCMD_EVENTS
#else
#undef CONFIG_HOSTCMD_EVENTS
#endif
/*
* Board supports host command to get EC SPI flash info. This is typically
* only needed if the factory needs to determine which of several possible SPI
* flash chips is attached to the EC on a given board.
*/
#undef CONFIG_HOSTCMD_FLASH_SPI_INFO
/*
* For ECs where the host command interface is I2C, slave
* address which the EC will respond to.
*/
#undef CONFIG_HOSTCMD_I2C_SLAVE_ADDR
/*
* Accept EC host commands over the SPI slave (SPS) interface.
*/
#undef CONFIG_HOSTCMD_SPS
/*
* Host command rate limiting assures EC will have time to process lower
* priority tasks even if the AP is hammering the EC with host commands.
* If there is less than CONFIG_HOSTCMD_RATE_LIMITING_MIN_REST between
* host commands for CONFIG_HOSTCMD_RATE_LIMITING_PERIOD, then a
* recess period of CONFIG_HOSTCMD_RATE_LIMITING_RECESS will be
* enforced.
*/
#define CONFIG_HOSTCMD_RATE_LIMITING_PERIOD (500 * MSEC)
#define CONFIG_HOSTCMD_RATE_LIMITING_MIN_REST (3 * MSEC)
#define CONFIG_HOSTCMD_RATE_LIMITING_RECESS (20 * MSEC)
/* PD MCU supports host commands */
#undef CONFIG_HOSTCMD_PD
/* EC supports EC_CMD_PD_CHIP_INFO */
#define CONFIG_EC_CMD_PD_CHIP_INFO
/*
* Use if PD MCU controls charging (selecting charging port and input
* current limit).
*/
#undef CONFIG_HOSTCMD_PD_CHG_CTRL
/* Panic when status of PD MCU reflects that it has crashed */
#undef CONFIG_HOSTCMD_PD_PANIC
/* Board supports RTC host commands */
#undef CONFIG_HOSTCMD_RTC
/* For access to VBNV on-EC battery-backed storage */
#undef CONFIG_HOSTCMD_VBNV_CONTEXT
/* EC controls the board's SKU ID and can report that to the AP */
#undef CONFIG_HOSTCMD_SKUID
/* Set SKU ID from AP */
#undef CONFIG_HOSTCMD_AP_SET_SKUID
/*****************************************************************************/
/* Enable debugging and profiling statistics for hook functions */
#undef CONFIG_HOOK_DEBUG
/*****************************************************************************/
/* CRC configuration */
/* Enable the hardware accelerator for CRC computation */
#undef CONFIG_HW_CRC
/* Enable the software routine for CRC computation */
#undef CONFIG_SW_CRC
/*****************************************************************************/
/* Enable system hibernate */
#define CONFIG_HIBERNATE
/* Default delay after shutting down before hibernating */
#define CONFIG_HIBERNATE_DELAY_SEC 3600
/*
* Use to define going in to hibernate early if low on battery.
* CONFIG_HIBERNATE_BATT_PCT specifies the low battery threshold
* for going into hibernate early, and CONFIG_HIBERNATE_BATT_SEC defines
* the minimum amount of time to stay in G3 before checking for low
* battery hibernate.
*/
#undef CONFIG_HIBERNATE_BATT_PCT
#undef CONFIG_HIBERNATE_BATT_SEC
/* For ECs with multiple wakeup pins, define enabled wakeup pins */
#undef CONFIG_HIBERNATE_WAKEUP_PINS
/*
* Use PSL (Power Switch Logic) for hibernating. It turns off VCC power rail
* for ultra-low power consumption and uses PSL inputs rely on VSBY power rail
* to wake up ec and the whole system.
*/
#undef CONFIG_HIBERNATE_PSL
/* Use a hardware specific udelay(). */
#undef CONFIG_HW_SPECIFIC_UDELAY
/*****************************************************************************/
/* I2C configuration */
#undef CONFIG_I2C
#undef CONFIG_I2C_DEBUG
#undef CONFIG_I2C_DEBUG_PASSTHRU
#undef CONFIG_I2C_PASSTHROUGH
#undef CONFIG_I2C_PASSTHRU_RESTRICTED
#undef CONFIG_I2C_VIRTUAL_BATTERY
/* EC uses an I2C master interface */
#undef CONFIG_I2C_MASTER
/* EC uses an I2C slave interface */
#undef CONFIG_I2C_SLAVE
/* Defines I2C operation retry count when slave nack'd(EC_ERROR_BUSY) */
#define CONFIG_I2C_NACK_RETRY_COUNT 0
/*
* I2C SCL gating.
*
* If CONFIG_I2C_SCL_GATE_ADDR/PORT is defined, whenever the defined address
* is addressed, CONFIG_I2C_SCL_GATE_GPIO is set to high. When the I2C
* transaction is done, the pin is set back to low.
*/
#undef CONFIG_I2C_SCL_GATE_PORT
#undef CONFIG_I2C_SCL_GATE_ADDR
#undef CONFIG_I2C_SCL_GATE_GPIO
/*
* Some chip supports two owned slave address. The second slave address is used
* for other purpose such as board specific i2c commands. This option can be
* set if user of the second slave address requires larger host packet buffer
* size.
*/
#define CONFIG_I2C_EXTRA_PACKET_SIZE 0
/*
* I2C multi-port controller.
*
* If CONFIG_I2C_MULTI_PORT_CONTROLLER is defined, a single on-chip I2C
* controller may have multiple I2C ports attached. Therefore, I2c operations
* must lock the controller (not just the port) to prevent hardware access
* conflicts.
*/
#undef CONFIG_I2C_MULTI_PORT_CONTROLLER
/*****************************************************************************/
/* Current/Power monitor */
/*
* Compile driver for INA219 or INA231. These two flags may not be both
* defined.
*/
#undef CONFIG_INA219
#undef CONFIG_INA231
/*****************************************************************************/
/* Inductive charging */
/* Enable inductive charging support */
#undef CONFIG_INDUCTIVE_CHARGING
/******************************************************************************/
/* Support NXP PCA9534 I/O expander. */
#undef CONFIG_IO_EXPANDER_PCA9534
/*****************************************************************************/
/* Number of IRQs supported on the EC chip */
#undef CONFIG_IRQ_COUNT
/*
* The IT8320 supports e-flash clock up to 48 MHz (IT8390 maximum is 32 MHz).
* Enable it if we want better performance of fetching instruction from e-flash.
*
* This is valid with PLL frequency equal to 48/96MHz only.
*/
#undef CONFIG_IT83XX_FLASH_CLOCK_48MHZ
/* To define it, if I2C channel C and PECI used at the same time. */
#undef CONFIG_IT83XX_SMCLK2_ON_GPC7
/*****************************************************************************/
/* Keyboard config */
/*
* The Silego reset chip sits in between the EC and the physical keyboard on
* column 2. To save power in low-power modes, some Silego variants require
* the signal to be inverted so that the open-drain output from the EC isn't
* costing power due to the pull-up resistor in the Silego.
*/
#undef CONFIG_KEYBOARD_COL2_INVERTED
/*
* Config KSO to start from a different KSO pin. This is to allow some chips
* to use alternate functions on KSO pins.
*/
#define CONFIG_KEYBOARD_KSO_BASE 0
/*
* For certain board configurations, KSI2 will be stuck asserted for all
* scan columns if the power button is held. We must be aware of this case
* in order to correctly handle recovery mode key combinations.
*/
#undef CONFIG_KEYBOARD_PWRBTN_ASSERTS_KSI2
/* Enable extra debugging output from keyboard modules */
#undef CONFIG_KEYBOARD_DEBUG
/* The board uses a negative edge-triggered GPIO for keyboard interrupts. */
#undef CONFIG_KEYBOARD_IRQ_GPIO
/* Compile code for 8042 keyboard protocol */
#undef CONFIG_KEYBOARD_PROTOCOL_8042
/* Compile code for MKBP keyboard protocol */
#undef CONFIG_KEYBOARD_PROTOCOL_MKBP
/* Support keyboard factory test scanning */
#undef CONFIG_KEYBOARD_FACTORY_TEST
/*
* Keyboard config (struct keyboard_scan_config) is in board.c. If this is
* not defined, default values from common/keyboard_scan.c will be used.
*/
#undef CONFIG_KEYBOARD_BOARD_CONFIG
/*
* Support for boot key combinations (e.g. refresh key being held on boot to
* trigger recovery).
*/
#define CONFIG_KEYBOARD_BOOT_KEYS
/* Add support for the new key. */
#undef CONFIG_KEYBOARD_NEW_KEY
/*
* Minimum CPU clocks between scans. This ensures that keyboard scanning
* doesn't starve the other EC tasks of CPU when running at a decreased system
* clock.
*/
#undef CONFIG_KEYBOARD_POST_SCAN_CLOCKS
/* Print keyboard scan time intervals. */
#undef CONFIG_KEYBOARD_PRINT_SCAN_TIMES
/*
* Support for extra runtime key combinations (e.g. alt+volup+h/r for hibernate
* and warm reboot, respectively).
*/
#define CONFIG_KEYBOARD_RUNTIME_KEYS
/*
* Allow the keyboard scan code set tables to be modified at runtime.
*/
#undef CONFIG_KEYBOARD_SCANCODE_MUTABLE
/*
* Call board-supplied keyboard_suppress_noise() function when the debounced
* keyboard state changes. Some boards use this to send a signal to the audio
* codec to suppress typing noise picked up by the microphone.
*/
#undef CONFIG_KEYBOARD_SUPPRESS_NOISE
/*
* Enable keyboard testing functionality. This enables a message which receives
* a list of keyscan events from the AP and processes them. This will cause
* keypresses to appear on the AP through the same mechanism as a normal
* keyboard press.
*
* This can be used to spoof keyboard events, so is not normally defined,
* except during internal testing.
*/
#undef CONFIG_KEYBOARD_TEST
/*
* Enable quasi-bidirectional buffers for KSO pins. It has an open-drain output
* and a low-impedance pull-up. The low-impedance pull-up is active when ec
* changes the output data buffers from 0 to 1, thereby reducing the
* low-to-high transition time.
*/
#undef CONFIG_KEYBOARD_KSO_HIGH_DRIVE
/*****************************************************************************/
/* Support common LED interface */
#undef CONFIG_LED_COMMON
/* Standard LED behavior according to spec given that we have a red-green
* bicolor led for charging and one power led
*/
#undef CONFIG_LED_POLICY_STD
/*
* LEDs for LED_POLICY STD may be inverted. In this case they are active low
* and the GPIO names will be GPIO_LED..._L.
*/
#undef CONFIG_LED_BAT_ACTIVE_LOW
#undef CONFIG_LED_POWER_ACTIVE_LOW
/* Support for LED driver chip(s) */
#undef CONFIG_LED_DRIVER_DS2413 /* Maxim DS2413, on one-wire interface */
#undef CONFIG_LED_DRIVER_LP5562 /* LP5562, on I2C interface */
/* Offset in flash where little firmware will live. */
#undef CONFIG_LFW_OFFSET
/*
* Compile lid switch support.
*
* This is enabled by default because all boards other than reference boards
* are for laptops with lid switchs. Reference boards #undef it.
*/
#define CONFIG_LID_SWITCH
/*
* GPIOs to use to detect that the lid is opened.
*
* This is a X-macro composed of a list of LID_OPEN(GPIO_xxx) elements defining
* all the GPIOs to check to find whether the lid is currently opened.
* If not defined, it is using GPIO_LID_OPEN.
*/
#undef CONFIG_LID_SWITCH_GPIO_LIST
/*
* Support for turning the lightbar power rails on briefly when the AP is off.
* Enabling this requires implementing the board-specific lb_power() function
* to do it (see lb_common.h).
*/
#undef CONFIG_LIGHTBAR_POWER_RAILS
/*
* For tap sequence, show the last segment in dim to give a better idea of
* battery percentage.
*/
#undef CONFIG_LIGHTBAR_TAP_DIM_LAST_SEGMENT
/* Program memory offset for little firmware loader. */
#undef CONFIG_LOADER_MEM_OFF
/* Size of little firmware loader. */
#undef CONFIG_LOADER_SIZE
/* Little firmware loader storage offset. */
#undef CONFIG_LOADER_STORAGE_OFF
/*
* Low power idle options. These are disabled by default and all boards that
* want to use low power idle must define it. When using the LFIOSC, the low
* frequency clock will be used to conserve even more power when possible.
*
* GPIOs which need to trigger interrupts in low power idle must specify the
* GPIO_INT_DSLEEP flag in gpio_list[].
*
* Note that for some processors (e.g. LM4), an active JTAG connection will
* prevent the EC from using low-power idle.
*/
#undef CONFIG_LOW_POWER_IDLE
#undef CONFIG_LOW_POWER_USE_LFIOSC
/*
* Enable deep sleep during S0 (ignores SLEEP_MASK_AP_RUN).
*/
#undef CONFIG_LOW_POWER_S0
/* Support LPC interface */
#undef CONFIG_LPC
/* Base address of low power RAM. */
#undef CONFIG_LPRAM_BASE
/* Size of low power RAM. */
#undef CONFIG_LPRAM_SIZE
/* Use Link-Time Optimizations to try to reduce the firmware code size */
#undef CONFIG_LTO
/* Provide rudimentary malloc/free like services for shared memory. */
#undef CONFIG_MALLOC
/* Need for a math library */
#undef CONFIG_MATH_UTIL
/* Include code to do online compass calibration */
#undef CONFIG_MAG_CALIBRATE
/* Presence of a Bosh Sensortec BMM150 magnetometer behind a BMI160. */
#undef CONFIG_MAG_BMI160_BMM150
/* Microchip EC SRAM start address */
#undef CONFIG_MEC_SRAM_BASE_START
/* Microchip EC SRAM end address */
#undef CONFIG_MEC_SRAM_BASE_END
/* Microchip EC SRAM size */
#undef CONFIG_MEC_SRAM_SIZE
/*
* Define Megachips DisplayPort to HDMI protocol converter/level shifter serial
* interface.
*/
#undef CONFIG_MCDP28X0
/* Define clock input to MFT module. */
#undef CONFIG_MFT_INPUT_LFCLK
/* Support MKBP event */
#undef CONFIG_MKBP_EVENT
/* MKBP events are sent using host event */
#undef CONFIG_MKBP_USE_HOST_EVENT
/*
* With this option, we can define the MKBP wakeup events in this mask (as a
* white list) in board level, those events allow to interrupt AP during S3.
*/
#undef CONFIG_MKBP_WAKEUP_MASK
/* Support memory protection unit (MPU) */
#undef CONFIG_MPU
/* Do not try hold I/O pins at frozen level during deep sleep */
#undef CONFIG_NO_PINHOLD
/* Support one-wire interface */
#undef CONFIG_ONEWIRE
/* Support One Time Protection structure */
#undef CONFIG_OTP
/* Support PECI interface to x86 processor */
#undef CONFIG_PECI
/*
* Maximum operating temperature in degrees Celcius used on some x86
* processors. CPU chip temperature is reported relative to this value and
* is never reported greater than this value. Processor asserts PROCHOT#
* and starts throttling frequency and voltage at this temp. Operation may
* become unreliable if temperature exceeds this limit.
*/
#undef CONFIG_PECI_TJMAX
/* Support physical presence detection (via a physical button) */
#undef CONFIG_PHYSICAL_PRESENCE
/* Enable (unsafe!) developer debug features for physical presence */
#undef CONFIG_PHYSICAL_PRESENCE_DEBUG_UNSAFE
/*****************************************************************************/
/* PMU config */
/*
* Enable hard-resetting the PMU from the EC. The implementation is rather
* hacky; it simply shorts out the 3.3V rail to force the PMIC to panic. We
* need this unfortunate hack because it's the only way to reset the I2C engine
* inside the PMU.
*/
#undef CONFIG_PMU_HARD_RESET
/*
* Enable this config to make console UART self sufficient (no other
* initialization required before uart_init(), no interrupts, uart_tx_char()
* does not exit until character finished transmitting).
*
* This is useful during early hardware bringup, each platform needs to
* implement its own code to support this.
*/
#undef CONFIG_POLLING_UART
/*
* Enable/Disable printing of port80 messages in interrupt context. By default,
* this is disabled.
*/
#define CONFIG_PORT80_PRINT_IN_INT 0
/* Compile common code to support power button debouncing */
#undef CONFIG_POWER_BUTTON
/* Force the active state of the power button : 0(default if unset) or 1 */
#undef CONFIG_POWER_BUTTON_ACTIVE_STATE
/* Allow the power button to send events while the lid is closed */
#undef CONFIG_POWER_BUTTON_IGNORE_LID
/* Support sending the power button signal to x86 chipsets */
#undef CONFIG_POWER_BUTTON_X86
/* Set power button state idle at init. Implemented only for npcx. */
#undef CONFIG_POWER_BUTTON_INIT_IDLE
/*
* Enable delay between DSW_PWROK and PWRBTN assertion.
* If enabled, DSW_PWROK_TO_PWRBTN_US and get_time_dsw_pwrok must be defined
* as well.
*/
#undef CONFIG_DELAY_DSW_PWROK_TO_PWRBTN
/*
* The time in usec required for PMC to be ready to detect power button press.
* Refer to the timing diagram for G3 to S0 on PDG for details.
*/
#define CONFIG_DSW_PWROK_TO_PWRBTN_US (95 * MSEC)
/* Compile common code for AP power state machine */
#undef CONFIG_POWER_COMMON
/* Disable the power-on transition when the lid is opened */
#undef CONFIG_POWER_IGNORE_LID_OPEN
/* Support stopping in S5 on shutdown */
#undef CONFIG_POWER_SHUTDOWN_PAUSE_IN_S5
/*
* Detect power signal interrupt storms, defined as more than
* CONFIG_POWER_SIGNAL_INTERRUPT_STORM_DETECT_THRESHOLD occurences of a single
* power signal interrupt within one second.
*/
#undef CONFIG_POWER_SIGNAL_INTERRUPT_STORM_DETECT_THRESHOLD
/* Use part of the EC's data EEPROM to hold persistent storage for the AP. */
#undef CONFIG_PSTORE
/* Support S0ix */
#undef CONFIG_POWER_S0IX
/*
* Allow the host to self-report its sleep state, in case there is some delay
* between the host beginning to enter the sleep state and power signals
* actually reflecting the new state.
*/
#undef CONFIG_POWER_TRACK_HOST_SLEEP_STATE
/*****************************************************************************/
/* Support PWM control */
#undef CONFIG_PWM
/* Define clock input to PWM module. */
#undef CONFIG_PWM_INPUT_LFCLK
/*****************************************************************************/
/* Support PWM output to display backlight */
#undef CONFIG_PWM_DISPLIGHT
/* Support PWM output to keyboard backlight */
#undef CONFIG_PWM_KBLIGHT
/* Base address of RAM for the chip */
#undef CONFIG_RAM_BASE
/*
* CONFIG_DATA_RAM_SIZE and CONFIG_RAM_SIZE indicate size of all data RAM
* available on the chip in bytes and size of data RAM available for EC in
* bytes, respectively.
* Usually, CONFIG_DATA_RAM_SIZE = CONFIG_RAM_SIZE but some chips need to
* allocate RAM for the mask ROM. Then CONFIG_DATA_RAM_SIZE > CONFIG_RAM_SIZE.
*/
#undef CONFIG_DATA_RAM_SIZE
#undef CONFIG_RAM_SIZE
/* Enable rbox peripheral */
#undef CONFIG_RBOX
/* Enable RDD peripheral */
#undef CONFIG_RDD
/* Support IR357x Link voltage regulator debugging / reprogramming */
#undef CONFIG_REGULATOR_IR357X
/* Support RMA auth challenge-response */
#undef CONFIG_RMA_AUTH
/* If that's defined, the server public key and ID must also be defined */
#undef CONFIG_RMA_AUTH_SERVER_PUBLIC_KEY /* 32 bytes: {0xNN, 0xNN, ... 0xNN} */
#undef CONFIG_RMA_AUTH_SERVER_KEY_ID /* 6-bit key ID, 0xMM */
/* Enable hardware Random Number generator support */
#undef CONFIG_RNG
/* Support verifying 2048-bit RSA signature */
#undef CONFIG_RSA
/* Define the RSA key size. */
#undef CONFIG_RSA_KEY_SIZE
/* Use RSA exponent 3 instead of F4 (65537) */
#undef CONFIG_RSA_EXPONENT_3
/*
* Adjust the compiler optimization flags for the RSA code to get a speed-up
* at the expense of a small code size delta.
*/
#undef CONFIG_RSA_OPTIMIZED
/*
* Verify the RW firmware using the RSA signature.
* (for accessories without software sync)
*/
#undef CONFIG_RWSIG
/*
* Disable rwsig jump when the reset source is hard pin-reset. This only work
* for the case where rwsig task is not used.
*/
#undef CONFIG_RWSIG_DONT_CHECK_ON_PIN_RESET
/*
* When RWSIG verification is performed as a task, time to wait from signature
* verification to an automatic jump to RW (if AP does not request the wait to
* be interrupted).
*/
#define CONFIG_RWSIG_JUMP_TIMEOUT (1000 * MSEC)
/*
* Defines what type of futility signature type should be used.
* RWSIG should be used for new designs.
* Old adapters use the USBPD1 futility signature type.
*/
#undef CONFIG_RWSIG_TYPE_RWSIG
#undef CONFIG_RWSIG_TYPE_USBPD1
/*
* By default the pubkey and sig are put at the end of the first and second
* half of the total flash, and take up the minimum space possible. You can
* override those defaults with these.
*/
#undef CONFIG_RO_PUBKEY_ADDR
#undef CONFIG_RO_PUBKEY_SIZE
#undef CONFIG_RW_SIG_ADDR
#undef CONFIG_RW_SIG_SIZE
/* Size of the serial number if needed */
#undef CONFIG_SERIALNO_LEN
/****************************************************************************/
/* Shared objects library. */
/* Support shared objects library between RO and RW. */
#undef CONFIG_SHAREDLIB
/* Size of shared objects library. */
#undef CONFIG_SHAREDLIB_SIZE
/* Program memory offset of shared objects library. */
#undef CONFIG_SHAREDLIB_MEM_OFF
/* Storage offset of sharedobjects library. */
#undef CONFIG_SHAREDLIB_STORAGE_OFF
/*
* If defined, the hash module will save its last computed hash when jumping
* between EC images.
*/
#undef CONFIG_SAVE_VBOOT_HASH
/* Enable smart battery firmware update driver */
#undef CONFIG_SB_FIRMWARE_UPDATE
/* Allow the board to use a GPIO for the SCI# signal. */
#undef CONFIG_SCI_GPIO
/* Support computing SHA-1 hash */
#undef CONFIG_SHA1
/* Support computing of other hash sizes (without the VBOOT code) */
#undef CONFIG_SHA256
/* Unroll some loops in SHA256_transform for better performance. */
#undef CONFIG_SHA256_UNROLLED
/* Emulate the CLZ (Count Leading Zeros) in software for CPU lacking support */
#undef CONFIG_SOFTWARE_CLZ
/* Support smbus interface */
#undef CONFIG_SMBUS
/* Support SPI interfaces */
#undef CONFIG_SPI
/* Support deprecated SPI protocol version 2. */
#undef CONFIG_SPI_PROTOCOL_V2
/*
* Support SPI Slave interfaces. The first board supporting this is cr50 and
* in its parlance SPI_SLAVE is called SPS. This convention might be
* reconsidered later, and the use of "SPI" in different config options needs
* to be cleand up. (crbug.com/512613).
*/
#undef CONFIG_SPS
/* Define the SPI port to use to access SPI accelerometer */
#undef CONFIG_SPI_ACCEL_PORT
/* Support SPI flash */
#undef CONFIG_SPI_FLASH
/* Support SPI flash protection register translation */
#undef CONFIG_SPI_FLASH_REGS
/* Define the SPI port to use to access the flash */
#undef CONFIG_SPI_FLASH_PORT
/* Select any of the following SPI flash configs that your board uses. */
#undef CONFIG_SPI_FLASH_GD25LQ40
#undef CONFIG_SPI_FLASH_GD25Q41B
#undef CONFIG_SPI_FLASH_W25Q40
#undef CONFIG_SPI_FLASH_W25Q64
#undef CONFIG_SPI_FLASH_W25Q80
#undef CONFIG_SPI_FLASH_W25X40
/* SPI flash part supports SR2 register */
#undef CONFIG_SPI_FLASH_HAS_SR2
/* Define the SPI port to use to access the fingerprint sensor */
#undef CONFIG_SPI_FP_PORT
/* Support JEDEC SFDP based Serial NOR flash */
#undef CONFIG_SPI_NOR
/* Enable SPI_NOR debugging providing additional console output while
* initializing Serial NOR Flash devices including SFDP discovery. */
#undef CONFIG_SPI_NOR_DEBUG
/* Maximum Serial NOR flash command size, in Bytes */
#undef CONFIG_SPI_NOR_MAX_MESSAGE_SIZE
/* Maximum Serial NOR flash read size, in Bytes */
#undef CONFIG_SPI_NOR_MAX_READ_SIZE
/* Maximum Serial NOR flash write size, in Bytes. Note this must be a power of
* two. */
#undef CONFIG_SPI_NOR_MAX_WRITE_SIZE
/* If defined will enable block (64KiB) erase operations. */
#undef CONFIG_SPI_NOR_BLOCK_ERASE
/* If defined will read the sector/block to be erased first and only initiate
* the erase operation if not already in an erased state. The read operation
* (performed in CONFIG_SPI_NOR_MAX_READ_SIZE chunks) is aborted early if a
* non "0xff" byte is encountered.
* !! Make sure there is enough stack space to host a
* !! CONFIG_SPI_NOR_MAX_READ_SIZE sized buffer before enabling.
*/
#undef CONFIG_SPI_NOR_SMART_ERASE
/* SPI master feature */
#undef CONFIG_SPI_MASTER
/* SPI master halfduplex/3-wire mode */
#undef CONFIG_SPI_HALFDUPLEX
/* Support STM32 SPI1 as master. */
#undef CONFIG_STM32_SPI1_MASTER
/* SPI master configure gpios on init */
#undef CONFIG_SPI_MASTER_CONFIGURE_GPIOS
/* Support SPI masters without GPIO-specified Chip Selects, instead rely on the
* SPI master port's hardwired CS pin. */
#undef CONFIG_SPI_MASTER_NO_CS_GPIOS
/* Support testing SPI slave controller driver. */
#undef CONFIG_SPS_TEST
/* Default stack size to use for tasks, in bytes */
#undef CONFIG_STACK_SIZE
/* Use 32-bit timer for clock source on stm32. */
#undef CONFIG_STM_HWTIMER32
/* Compile charger detect for STM32 */
#undef CONFIG_STM32_CHARGER_DETECT
/* Fake hibernate mode */
#undef CONFIG_STM32L_FAKE_HIBERNATE
/*
* Compile common code to handle simple switch inputs such as the recovery
* button input from the servo debug interface.
*/
#undef CONFIG_SWITCH
/* Support dedicated recovery signal from servo board */
#undef CONFIG_SWITCH_DEDICATED_RECOVERY
/*
* System should remain unlocked even if write protect is enabled.
*
* NOTE: This should ONLY be defined during bringup, and should never be
* defined on a shipping / released platform.
*/
#undef CONFIG_SYSTEM_UNLOCKED
/*
* Device can be a tablet as well as a clamshell.
*/
#undef CONFIG_TABLET_MODE
/*
* Add a virtual switch to indicate when we are in tablet mode.
*/
#undef CONFIG_TABLET_MODE_SWITCH
/*****************************************************************************/
/* Task config */
/*
* List of enabled tasks in ascending priority order. This is normally
* defined in each board's ec.tasklist file.
*
* For each task, use the macro TASK_ALWAYS(n, r, d, s) for base tasks and
* TASK_NOTEST(n, r, d, s) for tasks that can be excluded in test binaries,
* where :
* 'n' is the name of the task
* 'r' is the main routine of the task
* 'd' is an opaque parameter passed to the routine at startup
* 's' is the stack size in bytes; must be a multiple of 8
*/
#undef CONFIG_TASK_LIST
/*
* List of test tasks. Same format as CONFIG_TASK_LIST, but used to define
* additional tasks for a unit test. Normally defined in
* test/{testname}.tasklist.
*/
#undef CONFIG_TEST_TASK_LIST
/*
* List of tasks used by CTS
*
* cts.tasklist contains tasks run only for CTS. These tasks are added to the
* tasks registered in ec.tasklist with higher priority.
*
* If a CTS suite does not define its own cts.tasklist, the common list is used
* (i.e. cts/cts.tasklist).
*/
#undef CONFIG_CTS_TASK_LIST
/*
* Enable task profiling.
*
* Boards may #undef this to reduce image size and RAM usage.
*/
#define CONFIG_TASK_PROFILING
/*****************************************************************************/
/* Temperature sensor config */
/* Compile common code for temperature sensor support */
#undef CONFIG_TEMP_SENSOR
/* Support particular temperature sensor chips */
#undef CONFIG_TEMP_SENSOR_BD99992GW /* BD99992GW PMIC, on I2C bus */
#undef CONFIG_TEMP_SENSOR_EC_ADC /* Thermistors on EC's own ADC */
#undef CONFIG_TEMP_SENSOR_G781 /* G781 sensor, on I2C bus */
#undef CONFIG_TEMP_SENSOR_G782 /* G782 sensor, on I2C bus */
#undef CONFIG_TEMP_SENSOR_TMP006 /* TI TMP006 sensor, on I2C bus */
#undef CONFIG_TEMP_SENSOR_TMP432 /* TI TMP432 sensor, on I2C bus */
#undef CONFIG_THERMISTOR_NCP15WB /* NCP15WB thermistor */
/*
* If defined, active-high GPIO which indicates temperature sensor chips are
* powered. If not defined, temperature sensors are assumed to be always
* powered.
*/
#undef CONFIG_TEMP_SENSOR_POWER_GPIO
/* Compile common code for throttling the CPU based on the temp sensors */
#undef CONFIG_THROTTLE_AP
/*
* If defined, dptf is enabled to manage thermals.
*
* NOTE: This doesn't mean that thermal control is completely taken care by
* DPTF. We have some hybrid solutions where the EC still manages the fans.
*/
#undef CONFIG_DPTF
/*****************************************************************************/
/* Touchpad config */
/* Enable touchpad, you must pick a driver (currently, only Elan exists) */
#undef CONFIG_TOUCHPAD
/* Enable Elan driver */
#undef CONFIG_TOUCHPAD_ELAN
/* Set I2C port and address (8-bit) */
#undef CONFIG_TOUCHPAD_I2C_PORT
#undef CONFIG_TOUCHPAD_I2C_ADDR
/*
* Enable touchpad FW update over USB update protocol, and define touchpad
* virtual address and size.
*/
#undef CONFIG_TOUCHPAD_VIRTUAL_OFF
#undef CONFIG_TOUCHPAD_VIRTUAL_SIZE
/*
* Include hashes of the touchpad FW in the EC image, passed as TOUCHPAD_FW
* parameter to make command.
*/
#undef CONFIG_TOUCHPAD_HASH_FW
/*****************************************************************************/
/* TPM-like configuration */
/* Speak the TPM SPI Hardware Protocol on the SPI slave interface */
#undef CONFIG_TPM_SPS
/* Speak to the TPM 2.0 hardware protocol on the I2C slave interface */
#undef CONFIG_TPM_I2CS
/* Record TPM events in circular buffer */
#undef CONFIG_TPM_LOGGING
/*****************************************************************************/
/* USART stream config */
#undef CONFIG_STREAM_USART
/*
* Each USART stream can be individually enabled and accessible using the
* stream interface provided in the usart_config struct.
*/
#undef CONFIG_STREAM_USART1
#undef CONFIG_STREAM_USART2
#undef CONFIG_STREAM_USART3
#undef CONFIG_STREAM_USART4
/*****************************************************************************/
/* U2F config: second factor authentication */
#undef CONFIG_U2F
/*****************************************************************************/
/* USB stream config */
#undef CONFIG_STREAM_USB
/*****************************************************************************/
/* UART config */
/* Baud rate for UARTs */
#define CONFIG_UART_BAUD_RATE 115200
/* Allow bit banging of a UARTs pins and bypassing the UART block. */
#undef CONFIG_UART_BITBANG
/* UART index (number) for EC console */
#undef CONFIG_UART_CONSOLE
/* UART index (number) for host UART, if present */
#undef CONFIG_UART_HOST
/* Use uart_input_filter() to filter UART input. See prototype in uart.h */
#undef CONFIG_UART_INPUT_FILTER
/*
* UART receive buffer size in bytes. Must be a power of 2 for macros in
* common/uart_buffering.c to work properly. Must be larger than
* CONFIG_CONSOLE_INPUT_LINE_SIZE to copy and paste scripts.
*/
#define CONFIG_UART_RX_BUF_SIZE 128
/* Use DMA for UART input */
#undef CONFIG_UART_RX_DMA
/*
* On some platforms, UART receive DMA can't trigger an interrupt when a single
* character is received. Those platforms poll for characters every HOOK_TICK.
* When a character is received, make this many additional checks between then
* and the next HOOK_TICK, to increase responsiveness of the console to input.
*/
#define CONFIG_UART_RX_DMA_RECHECKS 5
/*
* UART transmit buffer size in bytes. Must be a power of 2 for macros in
* common/uart_buffering.c to work properly.
*/
#define CONFIG_UART_TX_BUF_SIZE 512
/* Use DMA for UART output */
#undef CONFIG_UART_TX_DMA
/* The DMA channel for UART. If not defined, default to UART1. */
#undef CONFIG_UART_TX_DMA_CH
#undef CONFIG_UART_RX_DMA_CH
/* The DMA peripheral request signal for UART TX. STM32 only. */
#undef CONFIG_UART_TX_DMA_PH
/* The DMA channel mapping config for stm32f4. */
#undef CONFIG_UART_TX_REQ_CH
#undef CONFIG_UART_RX_REQ_CH
/*****************************************************************************/
/* USB PD config */
/* Include all USB Power Delivery modules */
#undef CONFIG_USB_POWER_DELIVERY
/* Support for USB PD alternate mode */
#undef CONFIG_USB_PD_ALT_MODE
/* Support for USB PD alternate mode of Downward Facing Port */
#undef CONFIG_USB_PD_ALT_MODE_DFP
/* Check if max voltage request is allowed before each request */
#undef CONFIG_USB_PD_CHECK_MAX_REQUEST_ALLOWED
/* Default state of PD communication disabled flag */
#undef CONFIG_USB_PD_COMM_DISABLED
/*
* Do not enable PD communication in RO as a security measure.
* We don't want to allow communication to outside world until
* we jump to RW. This can by overridden with the removal of
* the write protect screw to allow for easier testing.
*/
#undef CONFIG_USB_PD_COMM_LOCKED
/* Respond to custom vendor-defined messages over PD */
#undef CONFIG_USB_PD_CUSTOM_VDM
/* Default USB data role when a USB PD debug accessory is seen */
#define CONFIG_USB_PD_DEBUG_DR PD_ROLE_DFP
/*
* Define to have a fixed PD Task debug level.
* Undef to allow runtime change via console command.
*/
#undef CONFIG_USB_PD_DEBUG_LEVEL
/*
* Define if this board can enable VBUS discharge (eg. through a GPIO-controlled
* discharge circuit, or through port controller registers) to discharge VBUS
* rapidly on disconnect.
*/
#undef CONFIG_USB_PD_DISCHARGE
/*
* Define (along with CONFIG_USB_PD_DISCHARGE) if discharge circuit is
* EC GPIO-controlled.
*/
#undef CONFIG_USB_PD_DISCHARGE_GPIO
/*
* Define (along with CONFIG_USB_PD_DISCHARGE) if discharge circuit is
* using PD discharge registers.
*/
#undef CONFIG_USB_PD_DISCHARGE_TCPC
/* Define if this board is acting as a Debug Test System (DTS) */
#undef CONFIG_USB_PD_DTS
/* Define if this board can act as a dual-role PD port (source and sink) */
#undef CONFIG_USB_PD_DUAL_ROLE
/* Define if this board can used TCPC-controlled DRP toggle */
#undef CONFIG_USB_PD_DUAL_ROLE_AUTO_TOGGLE
/*
* Define if VBUS source GPIOs (GPIO_USB_C*_5V_EN) are active-low (and named
* (..._L) rather than default active-high.
*/
#undef CONFIG_USB_PD_5V_EN_ACTIVE_LOW
/* Dynamic USB PD source capability */
#undef CONFIG_USB_PD_DYNAMIC_SRC_CAP
/* Support USB PD flash. */
#undef CONFIG_USB_PD_FLASH
/* Check whether PD is the sole power source before flash erase operation */
#undef CONFIG_USB_PD_FLASH_ERASE_CHECK
/* Define if this board, operating as a sink, can give power back to a source */
#undef CONFIG_USB_PD_GIVE_BACK
/* Major and Minor ChromeOS specific PD device Hardware IDs. */
#undef CONFIG_USB_PD_HW_DEV_ID_BOARD_MAJOR
#undef CONFIG_USB_PD_HW_DEV_ID_BOARD_MINOR
/* HW & SW version for alternate mode discover identity response (4bits each) */
#undef CONFIG_USB_PD_IDENTITY_HW_VERS
#undef CONFIG_USB_PD_IDENTITY_SW_VERS
/* USB PD MCU slave address for host commands */
#define CONFIG_USB_PD_I2C_SLAVE_ADDR 0x3c
/* Define if using internal comparator for PD receive */
#undef CONFIG_USB_PD_INTERNAL_COMP
/* Record main PD events in a circular buffer */
#undef CONFIG_USB_PD_LOGGING
/* The size in bytes of the FIFO used for event logging */
#define CONFIG_EVENT_LOG_SIZE 512
/* Save power by waking up on VBUS rather than polling CC */
#define CONFIG_USB_PD_LOW_POWER
/* Allow chip to go into low power idle even when a PD device is attached */
#undef CONFIG_USB_PD_LOW_POWER_IDLE_WHEN_CONNECTED
/* Number of USB PD ports */
#undef CONFIG_USB_PD_PORT_COUNT
/* Simple DFP, such as power adapter, will not send discovery VDM on connect */
#undef CONFIG_USB_PD_SIMPLE_DFP
/* Use comparator module for PD RX interrupt */
#define CONFIG_USB_PD_RX_COMP_IRQ
/* Use TCPC module (type-C port controller) */
#undef CONFIG_USB_PD_TCPC
/* Board provides specific TCPC init function */
#undef CONFIG_USB_PD_TCPC_BOARD_INIT
/* Enable TCPC to enter low power mode */
#undef CONFIG_USB_PD_TCPC_LOW_POWER
/*
* Track VBUS level in TCPC module. This will only be needed if we're acting
* as an external TCPC.
*/
#undef CONFIG_USB_PD_TCPC_TRACK_VBUS
/*
* Choose one of the following TCPMs (type-C port manager) to manage TCPC. The
* TCPM stub is used to make direct function calls to TCPC when TCPC is on
* the same MCU. The TCPCI TCPM uses the standard TCPCI i2c interface to TCPC.
*/
#undef CONFIG_USB_PD_TCPM_STUB
#undef CONFIG_USB_PD_TCPM_TCPCI
#undef CONFIG_USB_PD_TCPM_FUSB302
#undef CONFIG_USB_PD_TCPM_ITE83XX
#undef CONFIG_USB_PD_TCPM_ANX74XX
#undef CONFIG_USB_PD_TCPM_ANX7688
#undef CONFIG_USB_PD_TCPM_PS8751
#undef CONFIG_USB_PD_TCPM_PS8805
/*
* Use this option if the TCPC port controller supports the optional register
* 18h CONFIG_STANDARD_OUTPUT to steer the high-speed muxes.
*/
#undef CONFIG_USB_PD_TCPM_MUX
/*
* The TCPM must know whether VBUS is present in order to make proper state
* transitions. In addition, charge_manager must know about VBUS presence in
* order to make charging decisions. VBUS state can be determined by various
* methods:
* - Some TCPCs can detect and report the presence of VBUS.
* - In some configurations, charger ICs can report the presence of VBUS.
* - On some boards, dedicated VBUS interrupt pins are available.
*
* Exactly one of these should be defined for all boards that run the PD
* state machine.
*/
#undef CONFIG_USB_PD_VBUS_DETECT_TCPC
#undef CONFIG_USB_PD_VBUS_DETECT_CHARGER
#undef CONFIG_USB_PD_VBUS_DETECT_GPIO
#undef CONFIG_USB_PD_VBUS_DETECT_NONE
/* Define the type-c port controller I2C base address. */
#define CONFIG_TCPC_I2C_BASE_ADDR 0x9c
/* Use this option to enable Try.SRC mode for Dual Role devices */
#undef CONFIG_USB_PD_TRY_SRC
/* Set the default minimum battery percentage for Try.Src to be enabled */
#define CONFIG_USB_PD_TRY_SRC_MIN_BATT_SOC 1
/* Alternative configuration keeping only the TX part of PHY */
#undef CONFIG_USB_PD_TX_PHY_ONLY
/* Use DAC as reference for comparator at 850mV. */
#undef CONFIG_PD_USE_DAC_AS_REF
/* USB Product ID. */
#undef CONFIG_USB_PID
/* Support for USB type-c superspeed mux */
#undef CONFIG_USBC_SS_MUX
/*
* Only configure USB type-c superspeed mux when DFP (for chipsets that
* don't support being a UFP)
*/
#undef CONFIG_USBC_SS_MUX_DFP_ONLY
/* Sniffer header version
* Version 1: [timestamp:2B, sequence number:2B]
* Version 2: [timestamp:2B, sequence number:2B,
* Vbus value: 2B, vbus timestamp offset: 2B]
*/
#undef CONFIG_USBC_SNIFFER_HEADER_V1
#undef CONFIG_USBC_SNIFFER_HEADER_V2
/* Support v1.1 type-C connection state machine */
#undef CONFIG_USBC_BACKWARDS_COMPATIBLE_DFP
/* Support for USB type-c vconn. Not needed for captive cables. */
#undef CONFIG_USBC_VCONN
/* Support VCONN swap */
#undef CONFIG_USBC_VCONN_SWAP
/* USB Binary device Object Store support */
#undef CONFIG_USB_BOS
/* USB Device version of product */
#undef CONFIG_USB_BCD_DEV
/*
* Used during generation of VIF for USB Type-C Compliance Testing.
* Indicates whether the UUT can communicate with USB 2.0 or USB 3.1 as a host
* or as the Downstream Facing Port of a hub.
*/
#undef CONFIG_VIF_TYPE_C_CAN_ACT_AS_HOST
/*
* Used during generation of VIF for USB Type-C Compliance Testing.
* Indicates whether the UUT has a captive cable.
*/
#undef CONFIG_VIF_CAPTIVE_CABLE
/*****************************************************************************/
/* Compile chip support for the USB device controller */
#undef CONFIG_USB
/* Support USB blob handler. */
#undef CONFIG_USB_BLOB
/* Common USB / BC1.2 charger detection routines */
#undef CONFIG_USB_CHARGER
/* External BC1.2 charger detection devices. */
#undef CONFIG_BC12_DETECT_BQ24392
#undef CONFIG_BC12_DETECT_PI3USB9281
/* Number of Pericom PI3USB9281 chips present in system */
#undef CONFIG_BC12_DETECT_PI3USB9281_CHIP_COUNT
/* Enable USB serial console module. */
#undef CONFIG_USB_CONSOLE
/* Support USB HID interface. */
#undef CONFIG_USB_HID
/* Support USB HID keyboard interface. */
#undef CONFIG_USB_HID_KEYBOARD
/* Support USB HID keyboard backlight. */
#undef CONFIG_USB_HID_KEYBOARD_BACKLIGHT
/* Support USB HID touchpad interface. */
#undef CONFIG_USB_HID_TOUCHPAD
/* HID touchpad logical dimensions */
#undef CONFIG_USB_HID_TOUCHPAD_LOGICAL_MAX_X
#undef CONFIG_USB_HID_TOUCHPAD_LOGICAL_MAX_Y
/* HID touchpad physical dimensions (tenth of mm) */
#undef CONFIG_USB_HID_TOUCHPAD_PHYSICAL_MAX_X
#undef CONFIG_USB_HID_TOUCHPAD_PHYSICAL_MAX_Y
/* USB device buffers and descriptors */
#undef CONFIG_USB_RAM_ACCESS_SIZE
#undef CONFIG_USB_RAM_ACCESS_TYPE
#undef CONFIG_USB_RAM_BASE
#undef CONFIG_USB_RAM_SIZE
/* Disable automatic connection of USB peripheral */
#undef CONFIG_USB_INHIBIT_CONNECT
/* Disable automatic initialization of USB peripheral */
#undef CONFIG_USB_INHIBIT_INIT
/* Support control of multiple PHY */
#undef CONFIG_USB_SELECT_PHY
/* Select which USB PHY will be used at startup */
#undef CONFIG_USB_SELECT_PHY_DEFAULT
/* Support simple control of power to the device's USB ports */
#undef CONFIG_USB_PORT_POWER_DUMB
/*
* Support supplying USB power in S3, if the host leaves the port enabled when
* entering S3.
*/
#undef CONFIG_USB_PORT_POWER_IN_S3
/*
* Support smart power control to the device's USB ports, using
* dedicated power control chips. This potentially enables automatic
* negotiation of supplying more power to peripherals.
*/
#undef CONFIG_USB_PORT_POWER_SMART
/*
* Support smart power control to the device's USB ports, however only CDP and
* SDP are supported. Usually this is the case if all the control lines to the
* charging port controller are hard-wired.
*/
#undef CONFIG_USB_PORT_POWER_SMART_CDP_SDP_ONLY
/*
* Override the default charging mode for USB smart power control.
* Value is selected from usb_charge_mode in include/usb_charge.h
*/
#undef CONFIG_USB_PORT_POWER_SMART_DEFAULT_MODE
/*
* Smart USB power control can use a full set of control signals to the USB
* port power chip, or a reduced set. If this is defined, use the reduced set.
*/
#undef CONFIG_USB_PORT_POWER_SMART_SIMPLE
/* Number of smart USB power ports. */
#define CONFIG_USB_PORT_POWER_SMART_PORT_COUNT 2
/*
* Smart USB power control current limit pins may be inverted. In this case
* they are active low and the GPIO names will be GPIO_USBn_ILIM_SEL_L.
*/
#undef CONFIG_USB_PORT_POWER_SMART_INVERTED
/*
* Support waking up host by setting the K-state on the data lines (requires
* CONFIG_USB_SUSPEND to be set as well).
*/
#undef CONFIG_USB_REMOTE_WAKEUP
/* Support programmable USB device iSerial field. */
#undef CONFIG_USB_SERIALNO
/* Support reporting of configuration bMaxPower in mA */
#define CONFIG_USB_MAXPOWER_MA 500
/* Support reporting as self powered in USB configuration. */
#undef CONFIG_USB_SELF_POWERED
/* Support correct handling of USB suspend (host-initiated). */
#undef CONFIG_USB_SUSPEND
/* Default pull-up value on the USB-C ports when they are used as source. */
#define CONFIG_USB_PD_PULLUP TYPEC_RP_1A5
/*
* Override the pull-up value when only zero or one port is actively sourcing
* current and we can advertise more current than what is defined by
* `CONFIG_USB_PD_PULLUP`.
* Should be defined with one of the tcpc_rp_value.
*/
#undef CONFIG_USB_PD_MAX_SINGLE_SOURCE_CURRENT
/******************************************************************************/
/* stm32f4 dwc usb configs. */
/* Set USB speed to FS rather than HS */
#undef CONFIG_USB_DWC_FS
/******************************************************************************/
/* USB port switch */
/* Support the Pericom PI3USB30532 USB3.0/DP1.2 Matrix Switch */
#undef CONFIG_USB_MUX_PI3USB30532
/* Support the Parade PS8740 Type-C Redriving Switch */
#undef CONFIG_USB_MUX_PS8740
/* Support the Parade PS8743 Type-C Redriving Switch */
#undef CONFIG_USB_MUX_PS8743
/* 'Virtual' USB mux under host (not EC) control */
#undef CONFIG_USB_MUX_VIRTUAL
/*****************************************************************************/
/* USB GPIO config */
#undef CONFIG_USB_GPIO
/*****************************************************************************/
/* USB SPI config */
#undef CONFIG_USB_SPI
/*****************************************************************************/
/* USB I2C config */
#undef CONFIG_USB_I2C
/* Allowed write count for USB over I2C */
#define CONFIG_USB_I2C_MAX_WRITE_COUNT 60
/*****************************************************************************/
/* USB Power monitoring interface config */
#undef CONFIG_USB_POWER
/*****************************************************************************/
/*
* USB stream signing config. This allows data read over UART or SPI
* to have a signature generated that can be used to validate the data
* offline based on H1's registered key. Used by mn50.
*/
#undef CONFIG_STREAM_SIGNATURE
/*****************************************************************************/
/* Support early firmware selection */
#undef CONFIG_VBOOT_EFS
/* Support computing hash of code for verified boot */
#undef CONFIG_VBOOT_HASH
/* Support for secure temporary storage for verified boot */
#undef CONFIG_VSTORE
/* Number of supported slots for secure temporary storage */
#undef CONFIG_VSTORE_SLOT_COUNT
/*****************************************************************************/
/* Watchdog config */
/*
* Compile watchdog timer support. The watchdog timer will reboot the system
* if the hook task (which is the lowest-priority task on the system) gets
* starved for CPU time and isn't able to fire its HOOK_TICK event.
*/
#define CONFIG_WATCHDOG
/*
* Try to detect a watchdog that is about to fire, and print a trace. This is
* required on chips such as STM32 where the watchdog timer simply reboots the
* system without any early warning.
*/
#undef CONFIG_WATCHDOG_HELP
/* Watchdog period in ms; see also AUX_TIMER_PERIOD_MS */
#define CONFIG_WATCHDOG_PERIOD_MS 1600
/*
* Fire auxiliary timer 500ms before watchdog timer expires. This leaves
* some time for debug trace to be printed.
*/
#define CONFIG_AUX_TIMER_PERIOD_MS (CONFIG_WATCHDOG_PERIOD_MS - 500)
/*****************************************************************************/
/* WebUSB config */
/*
* Enable the WebUSB support and define its URL.
* Export a WebUSB Platform Descriptor in the Binary Object Store descriptor.
* The WebUSB landing page URL is equal to 'CONFIG_WEBUSB_URL' plus the
* https:// prefix.
* This requires CONFIG_USB_BOS.
*/
#undef CONFIG_WEBUSB_URL
/*****************************************************************************/
/*
* Support controlling power to WiFi, WWAN (3G/LTE), and/or bluetooth modules.
*/
#undef CONFIG_WIRELESS
/*
* Support for WiFi devices that must remain powered in suspend. Set to the
* combination of EC_WIRELESS_SWITCH flags (from ec_commands.h) which should
* be set in suspend.
*/
#undef CONFIG_WIRELESS_SUSPEND
/* WiFi power control signal is active-low. */
#undef CONFIG_WLAN_POWER_ACTIVE_LOW
/*
* Write protect signal is active-high. If this is defined, there must be a
* GPIO named GPIO_WP; if not defined, there must be a GPIO names GPIO_WP_L.
*/
#undef CONFIG_WP_ACTIVE_HIGH
/*
* The write protect signal is always asserted,
* independantly of the GPIO existence or current value.
*/
#undef CONFIG_WP_ALWAYS
/*
* If needed to allocate some free space in the base of the RO or RW section
* of the image, define these to be equal the required size of the free space.
*/
#undef CONFIG_RO_HEAD_ROOM
#undef CONFIG_RW_HEAD_ROOM
/* Firmware upgrade options. */
/* Firmware updates using other than HC channel(s). */
#undef CONFIG_NON_HC_FW_UPDATE
#undef CONFIG_USB_FW_UPDATE
/* A different config for the same update. TODO(vbendeb): dedup these */
#undef CONFIG_USB_UPDATE
/* Add support for pairing over the USB update interface. */
#undef CONFIG_USB_PAIRING
/* PDU size for fw update over USB (or TPM). */
#define CONFIG_UPDATE_PDU_SIZE 1024
/*
* If defined, charge_get_state returns a special status if battery is
* discharging and battery is nearly full.
*/
#undef CONFIG_PWR_STATE_DISCHARGE_FULL
/*
* Define this if a chip needs to add some information to the common 'version'
* command output.
*/
#undef CONFIG_EXTENDED_VERSION_INFO
/*
* Define this if board ID support is required. For g chip based boards it
* allows to nail different images to different boards.
*/
#undef CONFIG_BOARD_ID_SUPPORT
/*****************************************************************************/
/*
* Include board and core configs, since those hold the CONFIG_ constants for a
* given configuration. This guarantees they get included everywhere, and
* fixes a fairly common bug where we gate out code with #ifndef
* CONFIG_SOMETHING and but forget to include both of these.
*
* Board is included after chip, so that chip defaults can be overridden on a
* per-board basis as needed.
*/
#ifdef __CROS_EC_CONFIG_CHIP_H
#error Include config.h instead of config_chip.h!
#endif
#ifdef __BOARD_H
#error Include config.h instead of board.h!
#endif
#include "config_chip.h"
#include "board.h"
/******************************************************************************/
/*
* Set default data ram size unless it's customized by the chip.
*/
#ifndef CONFIG_DATA_RAM_SIZE
#define CONFIG_DATA_RAM_SIZE CONFIG_RAM_SIZE
#endif
/******************************************************************************/
/*
* Disable the built-in console history if using the experimental console.
*
* The experimental console keeps its own session-persistent history which
* survives EC reboot. It also requires CRC8 for command integrity.
*/
#ifdef CONFIG_EXPERIMENTAL_CONSOLE
#undef CONFIG_CONSOLE_HISTORY
#define CONFIG_CRC8
#endif /* defined(CONFIG_EXPERIMENTAL_CONSOLE) */
/******************************************************************************/
/*
* Throttle AP must have temperature sensor enabled to get the readings for
* thermal throttling.
*/
#if defined(CONFIG_THROTTLE_AP) && !defined(CONFIG_TEMP_SENSOR)
#define CONFIG_TEMP_SENSOR
#endif
/******************************************************************************/
/*
* DPTF must have temperature sensor enabled to get the readings for
* generating DPTF thresholds events.
*/
#if defined(CONFIG_DPTF) && !defined(CONFIG_TEMP_SENSOR)
#define CONFIG_TEMP_SENSOR
#endif
/******************************************************************************/
/* The Matrix Keyboard Protocol depends on MKBP events. */
#ifdef CONFIG_KEYBOARD_PROTOCOL_MKBP
#define CONFIG_MKBP_EVENT
#endif
/******************************************************************************/
/* Set generic orientation config if a specific orientation config is set. */
#if defined(CONFIG_KX022_ORIENTATION_SENSOR) || \
defined(CONFIG_BMI160_ORIENTATION_SENSOR)
#ifndef CONFIG_ACCEL_FIFO
#error CONFIG_ACCEL_FIFO must be defined to use hw orientation sensor support
#endif
#define CONFIG_ORIENTATION_SENSOR
#endif
/*****************************************************************************/
/*
* Handle task-dependent configs.
*
* This prevent sub-modules from being compiled when the task and parent module
* are not present.
*/
#ifndef HAS_TASK_CHIPSET
#undef CONFIG_CHIPSET_APOLLOLAKE
#undef CONFIG_CHIPSET_BRASWELL
#undef CONFIG_CHIPSET_CANNONLAKE
#undef CONFIG_CHIPSET_MEDIATEK
#undef CONFIG_CHIPSET_RK3399
#undef CONFIG_CHIPSET_ROCKCHIP
#undef CONFIG_CHIPSET_SKYLAKE
#undef CONFIG_CHIPSET_STONEY
#undef CONFIG_POWER_COMMON
#undef CONFIG_POWER_TRACK_HOST_SLEEP_STATE
#endif
#ifndef HAS_TASK_KEYPROTO
#undef CONFIG_KEYBOARD_PROTOCOL_8042
/*
* Note that we don't undef CONFIG_KEYBOARD_PROTOCOL_MKBP, because it doesn't
* have its own task.
*/
#endif
#ifndef HAS_TASK_PDCMD
#undef CONFIG_HOSTCMD_PD
#endif
/*****************************************************************************/
/*
* Apply test config overrides last, since tests need to override some of the
* config flags in non-standard ways to mock only parts of the system.
*/
#include "test_config.h"
/*
* Sanity checks to make sure some of the configs above make sense.
*/
#if (CONFIG_AUX_TIMER_PERIOD_MS) < ((HOOK_TICK_INTERVAL_MS) * 2)
#error "CONFIG_AUX_TIMER_PERIOD_MS must be at least 2x HOOK_TICK_INTERVAL_MS"
#endif
#ifdef CONFIG_USB_SERIALNO
#define CONFIG_SERIALNO_LEN 28
#endif
#endif /* __CROS_EC_CONFIG_H */
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