/* Copyright (c) 2014 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ /* * 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_*. */ /* Enable accelerometer interrupts. */ #undef CONFIG_ACCEL_INTERRUPTS /* Specify type of accelerometers attached. */ #undef CONFIG_ACCEL_KXCJ9 /* Compile chip support for analog-to-digital convertor */ #undef CONFIG_ADC /* * ADC module has certain clock requirement. If this is defined, the ADC module * should call clock_enable_module() to configure clock for ADC. */ #undef CONFIG_ADC_CLOCK /* * Some ALS modules may be connected to the EC. We need the command, and * specific drivers for each module. */ #undef CONFIG_ALS #undef CONFIG_ALS_ISL29035 /* Support AP hang detection host command and state machine */ #undef CONFIG_AP_HANG_DETECT /* * 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 /*****************************************************************************/ /* Battery config */ /* * Compile battery-specific code. Choose at most one. * * 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 /* BQ20Z453 battery used on some ARM laptops */ #undef CONFIG_BATTERY_BQ27541 /* BQ27541 battery */ #undef CONFIG_BATTERY_LINK /* Battery used on Link */ /* Compile mock battery support; used by tests. */ #undef CONFIG_BATTERY_MOCK /* * 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_V1 only. */ #undef CONFIG_BATTERY_OVERRIDE_PARAMS /* * 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 /* * 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 /*****************************************************************************/ /* * 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 /* Permanent LM4 boot configuration */ #undef CONFIG_BOOTCFG_VALUE /*****************************************************************************/ /* Modify the default behavior to make system bringup easier. */ #undef CONFIG_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 /* * Capsense chip has buttons, too. */ #undef CONFIG_CAPSENSE /*****************************************************************************/ /* Charger config */ /* Compile common charge state code. You must pick an implementation. */ #undef CONFIG_CHARGER #undef CONFIG_CHARGER_V1 #undef CONFIG_CHARGER_V2 /* Compile charger-specific code for these chargers (pick at most one) */ #undef CONFIG_CHARGER_BQ24707A #undef CONFIG_CHARGER_BQ24715 #undef CONFIG_CHARGER_BQ24725 #undef CONFIG_CHARGER_BQ24738 #undef CONFIG_CHARGER_BQ24773 #undef CONFIG_CHARGER_TPS65090 /* Note: does not use CONFIG_CHARGER */ /* * 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 /* * 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 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 /* * Maximum amount of input current the charger can receive, in mA. * * This value should depend on external power adapter, designed charging * voltage, and the maximum power of the running system. */ #undef CONFIG_CHARGER_INPUT_CURRENT /* * Equivalent of CONFIG_BATTERY_OVERRIDE_PARAMS for use with * CONFIG_CHARGER_V2 */ #undef CONFIG_CHARGER_PROFILE_OVERRIDE /* 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 /* * Maximum time to charge the battery, in hours. * * If this timeout is reached, the charger will enter force-idle state. * If not defined, charger will provide current until the battery asks it to * stop. */ #undef CONFIG_CHARGER_TIMEOUT_HOURS /* * 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 /*****************************************************************************/ /* Chipset config */ /* AP chipset support; pick at most one */ #undef CONFIG_CHIPSET_BAYTRAIL /* Intel Bay Trail (x86) */ #undef CONFIG_CHIPSET_GAIA /* Gaia and Ares (ARM) */ #undef CONFIG_CHIPSET_HASWELL /* Intel Haswell (x86) */ #undef CONFIG_CHIPSET_IVYBRIDGE /* Intel Ivy Bridge (x86) */ #undef CONFIG_CHIPSET_ROCKCHIP /* Rockchip rk32xx */ #undef CONFIG_CHIPSET_TEGRA /* nVidia Tegra 5 */ /* Support chipset throttling */ #undef CONFIG_CHIPSET_CAN_THROTTLE /* Enable additional chipset debugging */ #undef CONFIG_CHIPSET_DEBUG /* Support power rail control */ #define CONFIG_CHIPSET_HAS_PP1350 #define CONFIG_CHIPSET_HAS_PP5000 /*****************************************************************************/ /* PMIC config */ /* Support firmware long press power-off timer */ #undef CONFIG_PMIC_FW_LONG_PRESS_TIMER /*****************************************************************************/ /* * Optional console commands * * Defining these options will enable the corresponding command on the EC * console. */ #undef CONFIG_CMD_ACCELS #undef CONFIG_CMD_BATDEBUG #undef CONFIG_CMD_CLOCKGATES #undef CONFIG_CMD_COMXTEST #undef CONFIG_CMD_ECTEMP #undef CONFIG_CMD_FLASH #undef CONFIG_CMD_GSV #undef CONFIG_CMD_HOSTCMD #undef CONFIG_CMD_ILIM #undef CONFIG_CMD_JUMPTAGS #define CONFIG_CMD_LID_ANGLE #undef CONFIG_CMD_PLL #undef CONFIG_CMD_PMU #define CONFIG_CMD_POWERINDEBUG #undef CONFIG_CMD_POWERLED #undef CONFIG_CMD_RTC_ALARM #undef CONFIG_CMD_SCRATCHPAD #undef CONFIG_CMD_SLEEP #undef CONFIG_CMD_SPI_FLASH #undef CONFIG_CMD_STACKOVERFLOW #undef CONFIG_CMD_TASKREADY /*****************************************************************************/ /* Provide common core code to output panic information without interrupts. */ #define CONFIG_COMMON_PANIC_OUTPUT /* * Provide the default GPIO abstraction layer. * You want this unless you are doing a really tiny firmware. */ #define CONFIG_COMMON_GPIO /* * 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 /* * 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 /* * Disable EC console input if the system is locked. This is needed for * security on platforms where the EC console is accessible from outside the * case - for example, via a special USB dongle. */ #undef CONFIG_CONSOLE_RESTRICTED_INPUT /* Include CRC-8 utility function */ #undef CONFIG_CRC8 /*****************************************************************************/ /* * 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 '' 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 /* * 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 /* Check for stack overflows on every context switch */ #define CONFIG_DEBUG_STACK_OVERFLOW /*****************************************************************************/ /* 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 chip internal data EEPROM */ #undef CONFIG_EEPROM /* * Compile the eoption module, which provides a higher-level interface to * options stored in internal data EEPROM. */ #undef CONFIG_EOPTION /* Support turbo-mode chargers */ #undef CONFIG_EXTPOWER_FALCO /* Support detecting external power presence via a GPIO */ #undef CONFIG_EXTPOWER_GPIO /* * Support detecting external power presence via a pair of GPIOs, as used * on Snow. */ #undef CONFIG_EXTPOWER_SNOW /* Support providing power to the device via USB on Spring. */ #undef CONFIG_EXTPOWER_SPRING /*****************************************************************************/ /* Number of cooling fans. Undef if none. */ #undef CONFIG_FANS /* * Replace the default fan_percent_to_rpm() function with a board-specific * implementation in board.c */ #undef CONFIG_FAN_RPM_CUSTOM /*****************************************************************************/ /* Flash configuration */ /* Support programming on-chip flash */ #define CONFIG_FLASH #undef CONFIG_FLASH_BANK_SIZE #undef CONFIG_FLASH_BASE #undef CONFIG_FLASH_ERASED_VALUE32 #undef CONFIG_FLASH_ERASE_SIZE #undef CONFIG_FLASH_PHYSICAL_SIZE #undef CONFIG_FLASH_PROTECT_NEXT_BOOT #undef CONFIG_FLASH_SIZE #undef CONFIG_FLASH_WRITE_IDEAL_SIZE #undef CONFIG_FLASH_WRITE_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_IMAGE_SIZE #undef CONFIG_FW_PSTATE_OFF #undef CONFIG_FW_PSTATE_SIZE #undef CONFIG_FW_RO_OFF #undef CONFIG_FW_RO_SIZE #undef CONFIG_FW_RW_OFF #undef CONFIG_FW_RW_SIZE #undef CONFIG_FW_WP_RO_OFF #undef CONFIG_FW_WP_RO_SIZE /*****************************************************************************/ /* * 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 /* * For ECs where the host command interface is I2C, slave * address which the EC will respond to. */ #undef CONFIG_HOSTCMD_I2C_SLAVE_ADDR /*****************************************************************************/ /* 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 /* For ECs with multiple wakeup pins, define enabled wakeup pins */ #undef CONFIG_HIBERNATE_WAKEUP_PINS /*****************************************************************************/ /* I2C configuration */ #undef CONFIG_I2C #undef CONFIG_I2C_ARBITRATION #undef CONFIG_I2C_DEBUG #undef CONFIG_I2C_DEBUG_PASSTHRU #undef CONFIG_I2C_PASSTHROUGH #undef CONFIG_I2C_PASSTHRU_RESTRICTED /* * 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 /*****************************************************************************/ /* Inductive charging */ /* Enable inductive charging support */ #undef CONFIG_INDUCTIVE_CHARGING /*****************************************************************************/ /* Number of IRQs supported on the EC chip */ #undef CONFIG_IRQ_COUNT /*****************************************************************************/ /* 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 /* 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 /* * 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 /* * 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 /* * 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 /*****************************************************************************/ /* Support common LED interface */ #undef CONFIG_LED_COMMON /* 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 */ /* * Allows using the lid angle measurement to determine if key scanning should * be enabled or disabled when chipset is suspended. */ #undef CONFIG_LID_ANGLE_KEY_SCAN /* * 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 /* * 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 /* * 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 /* Support LPC interface */ #undef CONFIG_LPC /* Support MKBP event */ #undef CONFIG_MKBP_EVENT /* Support memory protection unit (MPU) */ #undef CONFIG_MPU /* Support one-wire interface */ #undef CONFIG_ONEWIRE /* 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 /*****************************************************************************/ /* PMU config */ /* * Force switching on and off the FETs on the PMU controlling various power * rails during AP startup and shutdown sequences. This is mainly useful for * bringup when we don't have the corresponding sequences in the AP code. * * Currently supported only on spring platform. */ #undef CONFIG_PMU_FORCE_FET /* * 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 /* Support TPS65090 PMU */ #undef CONFIG_PMU_TPS65090 /* * Support PMU powerinfo host and console commands. Note that the * implementation is currently specific to the Pit board, so don't blindly * enable this for another board without fixing that first. */ #undef CONFIG_PMU_POWERINFO /*****************************************************************************/ /* 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 /* Compile common code for AP power state machine */ #undef CONFIG_POWER_COMMON /* * The EC stores persistent state information for flash write protect in a * block of flash. If this option is defined, the information is in the last * bank of flash, instead of the last bank in the nominally read-only section * of flash. */ #undef CONFIG_PSTATE_AT_END /* Use part of the EC's data EEPROM to hold persistent storage for the AP. */ #undef CONFIG_PSTORE /*****************************************************************************/ /* Support PWM control */ #undef CONFIG_PWM /* Support PWM control while in low-power idle */ #undef CONFIG_PWM_DSLEEP /*****************************************************************************/ /* Support PWM output to keyboard backlight */ #undef CONFIG_PWM_KBLIGHT /* Base address of RAM for the chip */ #undef CONFIG_RAM_BASE /* Size of RAM available on the chip, in bytes */ #undef CONFIG_RAM_SIZE /* Support IR357x Link voltage regulator debugging / reprogramming */ #undef CONFIG_REGULATOR_IR357X /* Support verifying 2048-bit RSA signature */ #undef CONFIG_RSA /* * 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 /* 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 SPI flash */ #undef CONFIG_SPI_FLASH /* Size (bytes) of SPI flash memory */ #undef CONFIG_SPI_FLASH_SIZE /* SPI module port used for master interface */ #undef CONFIG_SPI_MASTER_PORT /* Default stack size to use for tasks, in bytes */ #undef CONFIG_STACK_SIZE /* 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 /*****************************************************************************/ /* 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 /* * 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_G781 /* G781 sensor, on I2C bus */ #undef CONFIG_TEMP_SENSOR_G781_INIT /* G781 sensor init */ #undef CONFIG_TEMP_SENSOR_TMP006 /* TI TMP006 sensor, on I2C bus */ #undef CONFIG_TEMP_SENSOR_TMP432 /* TI TMP432 sensor, on I2C bus */ /* * 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 /*****************************************************************************/ /* Stream config * * Streams are an abstraction for managing character based IO streams. Streams * can virtualize USARTs (interrupt, polled, or DMA driven), USB bulk * endpoints, I2C transfers, and more. */ #undef CONFIG_STREAM /*****************************************************************************/ /* 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 /*****************************************************************************/ /* USB stream config */ #undef CONFIG_STREAM_USB /*****************************************************************************/ /* UART config */ /* Baud rate for UARTs */ #define CONFIG_UART_BAUD_RATE 115200 /* UART index (number) for EC console */ #undef CONFIG_UART_CONSOLE /* UART index (number) for host UART, if present */ #undef CONFIG_UART_HOST /* * 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 /*****************************************************************************/ /* USB PD config */ /* Include all USB Power Delivery modules */ #undef CONFIG_USB_POWER_DELIVERY /* Default state of PD communication enabled flag */ #define CONFIG_USB_PD_COMM_ENABLED 1 /* Respond to custom vendor-defined messages over PD */ #undef CONFIG_USB_PD_CUSTOM_VDM /* Define if this board can act as a dual-role PD port (source and sink) */ #undef CONFIG_USB_PD_DUAL_ROLE /* Dynamic USB PD source capability */ #undef CONFIG_USB_PD_DYNAMIC_SRC_CAP /* Check whether PD is the sole power source before flash erase operation */ #undef CONFIG_USB_PD_FLASH_ERASE_CHECK /* 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 /* Define to have PD state machine send read info VDM on connection */ #undef CONFIG_USB_PD_READ_INFO_ON_CONNECT /* USB PD transmit uses SPI master */ #undef CONFIG_USB_PD_TX_USES_SPI_MASTER /* Support for USB type-c superspeed mux */ #undef CONFIG_USBC_SS_MUX /* Support for USB type-c vconn. Not needed for captive cables. */ #undef CONFIG_USBC_VCONN /* USB Binary device Object Store support */ #undef CONFIG_USB_BOS /*****************************************************************************/ /* USB interfaces config */ /* USB mass storage interface */ #undef CONFIG_USB_MS /* USB mass storage local buffer size */ #undef CONFIG_USB_MS_BUFFER_SIZE /*****************************************************************************/ /* Compile chip support for the USB device controller */ #undef CONFIG_USB /* Disable automatic initialization of USB peripheral */ #undef CONFIG_USB_INHIBIT /* 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 /* * 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 /* * 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 the TSU6721 I2C smart switch */ #undef CONFIG_USB_SWITCH_TSU6721 /* Support the Pericom PI3USB9281 I2C USB switch */ #undef CONFIG_USB_SWITCH_PI3USB9281 /* Select GPIO MUX for Pericom PI3USB9281 I2C USB switch */ #undef CONFIG_USB_SWITCH_PI3USB9281_MUX_GPIO /*****************************************************************************/ /* Support computing hash of code for verified boot */ #undef CONFIG_VBOOT_HASH /*****************************************************************************/ /* 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) /*****************************************************************************/ /* * 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 /* * 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 /*****************************************************************************/ /* * 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" /*****************************************************************************/ /* * 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_BAYTRAIL #undef CONFIG_CHIPSET_GAIA #undef CONFIG_CHIPSET_HASWELL #undef CONFIG_CHIPSET_IVYBRIDGE #undef CONFIG_CHIPSET_ROCKCHIP #undef CONFIG_CHIPSET_TEGRA #undef CONFIG_POWER_COMMON #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_KEYSCAN #undef CONFIG_KEYBOARD_PROTOCOL_8042 #undef CONFIG_KEYBOARD_PROTOCOL_MKBP #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 #endif /* __CROS_EC_CONFIG_H */