esp-idf/components/esp_hw_support/Kconfig

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menu "Hardware Settings"
menu "Chip revision"
# Insert chip-specific HW config
orsource "./port/$IDF_TARGET/Kconfig.hw_support"
config ESP_REV_NEW_CHIP_TEST
bool "Internal test mode"
depends on IDF_CI_BUILD
default n
help
For internal chip testing, a small number of new versions chips didn't
update the version field in eFuse, you can enable this option to force the
software recognize the chip version based on the rev selected in menuconfig.
endmenu
menu "MAC Config"
config ESP_MAC_ADDR_UNIVERSE_WIFI_STA
bool
config ESP_MAC_ADDR_UNIVERSE_WIFI_AP
bool
config ESP_MAC_ADDR_UNIVERSE_BT
bool
config ESP_MAC_ADDR_UNIVERSE_ETH
bool
config ESP_MAC_ADDR_UNIVERSE_IEEE802154
bool
config ESP_MAC_UNIVERSAL_MAC_ADDRESSES_ONE
bool
config ESP_MAC_UNIVERSAL_MAC_ADDRESSES_TWO
bool
config ESP_MAC_UNIVERSAL_MAC_ADDRESSES_FOUR
bool
# Insert chip-specific MAC config
orsource "./port/$IDF_TARGET/Kconfig.mac"
config ESP_MAC_IGNORE_MAC_CRC_ERROR
bool "Ignore MAC CRC error (not recommended)"
depends on IDF_TARGET_ESP32
default n
help
If you have an invalid MAC CRC (ESP_ERR_INVALID_CRC) problem
and you still want to use this chip, you can enable this option to bypass such an error.
This applies to both MAC_FACTORY and CUSTOM_MAC efuses.
config ESP_MAC_USE_CUSTOM_MAC_AS_BASE_MAC
bool "Enable using custom mac as base mac"
default n
help
When this configuration is enabled, the user can invoke `esp_read_mac` to obtain the desired type of
MAC using a custom MAC as the base MAC.
endmenu
menu "Sleep Config"
# This is here since this option affect behavior of esp_light_sleep_start
# regardless of power management configuration.
config ESP_SLEEP_POWER_DOWN_FLASH
bool "Power down flash in light sleep when there is no SPIRAM"
depends on !SPIRAM
default n
help
If enabled, chip will try to power down flash as part of esp_light_sleep_start(), which costs
more time when chip wakes up. Can only be enabled if there is no SPIRAM configured.
This option will power down flash under a strict but relatively safe condition. Also, it is possible to
power down flash under a relaxed condition by using esp_sleep_pd_config() to set ESP_PD_DOMAIN_VDDSDIO
to ESP_PD_OPTION_OFF. It should be noted that there is a risk in powering down flash, you can refer
`ESP-IDF Programming Guide/API Reference/System API/Sleep Modes/Power-down of Flash` for more details.
config ESP_SLEEP_FLASH_LEAKAGE_WORKAROUND
bool "Pull-up Flash CS pin in light sleep"
depends on !APP_BUILD_TYPE_PURE_RAM_APP && !ESP_SLEEP_POWER_DOWN_FLASH
default y
help
All IOs will be set to isolate(floating) state by default during sleep.
Since the power supply of SPI Flash is not lost during lightsleep, if its CS pin is recognized as
low level(selected state) in the floating state, there will be a large current leakage, and the
data in Flash may be corrupted by random signals on other SPI pins.
Select this option will set the CS pin of Flash to PULL-UP state during sleep, but this will
increase the sleep current about 10 uA.
If you are developing with esp32xx modules, you must select this option, but if you are developing
with chips, you can also pull up the CS pin of SPI Flash in the external circuit to save power
consumption caused by internal pull-up during sleep.
(!!! Don't deselect this option if you don't have external SPI Flash CS pin pullups.)
config ESP_SLEEP_PSRAM_LEAKAGE_WORKAROUND
bool "Pull-up PSRAM CS pin in light sleep"
depends on SPIRAM
default y
help
All IOs will be set to isolate(floating) state by default during sleep.
Since the power supply of PSRAM is not lost during lightsleep, if its CS pin is recognized as
low level(selected state) in the floating state, there will be a large current leakage, and the
data in PSRAM may be corrupted by random signals on other SPI pins.
Select this option will set the CS pin of PSRAM to PULL-UP state during sleep, but this will
increase the sleep current about 10 uA.
If you are developing with esp32xx modules, you must select this option, but if you are developing
with chips, you can also pull up the CS pin of PSRAM in the external circuit to save power
consumption caused by internal pull-up during sleep.
(!!! Don't deselect this option if you don't have external PSRAM CS pin pullups.)
config ESP_SLEEP_MSPI_NEED_ALL_IO_PU
bool "Pull-up all SPI pins in light sleep"
depends on !ESP_SLEEP_POWER_DOWN_FLASH \
&& (ESP_SLEEP_PSRAM_LEAKAGE_WORKAROUND || ESP_SLEEP_FLASH_LEAKAGE_WORKAROUND)
default y if IDF_TARGET_ESP32C2 || IDF_TARGET_ESP32S3
help
To reduce leakage current, some types of SPI Flash/RAM only need to pull up the CS pin
during light sleep. But there are also some kinds of SPI Flash/RAM that need to pull up
all pins. It depends on the SPI Flash/RAM chip used.
config ESP_SLEEP_RTC_BUS_ISO_WORKAROUND
bool
default y if IDF_TARGET_ESP32 || IDF_TARGET_ESP32S2 || IDF_TARGET_ESP32S3
config ESP_SLEEP_GPIO_RESET_WORKAROUND
bool "light sleep GPIO reset workaround"
default y if IDF_TARGET_ESP32C2 || IDF_TARGET_ESP32C3 || IDF_TARGET_ESP32S3 || \
IDF_TARGET_ESP32C6 || IDF_TARGET_ESP32H2
select PM_SLP_DISABLE_GPIO if FREERTOS_USE_TICKLESS_IDLE
help
esp32c2, esp32c3, esp32s3, esp32c6 and esp32h2 will reset at wake-up if GPIO is received
a small electrostatic pulse during light sleep, with specific condition
- GPIO needs to be configured as input-mode only
- The pin receives a small electrostatic pulse, and reset occurs when the pulse
voltage is higher than 6 V
For GPIO set to input mode only, it is not a good practice to leave it open/floating,
The hardware design needs to controlled it with determined supply or ground voltage
is necessary.
This option provides a software workaround for this issue. Configure to isolate all
GPIO pins in sleep state.
config ESP_SLEEP_WAIT_FLASH_READY_EXTRA_DELAY
int "Extra delay (in us) after flash powerdown sleep wakeup to wait flash ready"
default 2000 if IDF_TARGET_ESP32 || IDF_TARGET_ESP32S3
default 0
range 0 5000
help
When the chip exits sleep, the CPU and the flash chip are powered on at the same time.
CPU will run rom code (deepsleep) or ram code (lightsleep) first, and then load or execute
code from flash.
Some flash chips need sufficient time to pass between power on and first read operation.
By default, without any extra delay, this time is approximately 900us, although
some flash chip types need more than that.
(!!! Please adjust this value according to the Data Sheet of SPI Flash used in your project.)
In Flash Data Sheet, the parameters that define the Flash ready timing after power-up (minimum
time from Vcc(min) to CS activeare) usually named tVSL in ELECTRICAL CHARACTERISTICS chapter,
and the configuration value here should be:
ESP_SLEEP_WAIT_FLASH_READY_EXTRA_DELAY = tVSL - 900
For esp32 and esp32s3, the default extra delay is set to 2000us. When optimizing startup time
for applications which require it, this value may be reduced.
If you are seeing "flash read err, 1000" message printed to the console after deep sleep reset
on esp32, or triggered RTC_WDT/LP_WDT after lightsleep wakeup, try increasing this value.
(For esp32, the delay will be executed in both deep sleep and light sleep wake up flow.
For chips after esp32, the delay will be executed only in light sleep flow, the delay
controlled by the EFUSE_FLASH_TPUW in ROM will be executed in deepsleep wake up flow.)
config ESP_SLEEP_CACHE_SAFE_ASSERTION
bool "Check the cache safety of the sleep wakeup code in sleep process"
default n
help
Enabling it will check the cache safety of the code before the flash power is ready after
light sleep wakeup, and check PM_SLP_IRAM_OPT related code cache safety. This option is
only for code quality inspection. Enabling it will increase the time overhead of entering
and exiting sleep. It is not recommended to enable it in the release version.
config ESP_SLEEP_DEBUG
bool "esp sleep debug"
default n
help
Enable esp sleep debug.
config ESP_SLEEP_GPIO_ENABLE_INTERNAL_RESISTORS
bool "Allow to enable internal pull-up/downs for the Deep-Sleep wakeup IOs"
default y
help
When using rtc gpio wakeup source during deepsleep without external pull-up/downs, you may want to
make use of the internal ones.
config ESP_SLEEP_EVENT_CALLBACKS
bool "Enable registration of sleep event callbacks"
depends on FREERTOS_USE_TICKLESS_IDLE
default n
help
If enabled, it allows user to register sleep event callbacks. It is primarily designed for internal
developers and customers can use PM_LIGHT_SLEEP_CALLBACKS as an alternative.
NOTE: These callbacks are executed from the IDLE task context hence you cannot have any blocking calls
in your callbacks.
NOTE: Enabling these callbacks may change sleep duration calculations based on time spent in
callback and hence it is highly recommended to keep them as short as possible.
endmenu
menu "ESP_SLEEP_WORKAROUND"
# No visible menu/configs for workaround
visible if 0
config ESP_SLEEP_SYSTIMER_STALL_WORKAROUND
bool "ESP32C3 SYSTIMER Stall Issue Workaround"
depends on IDF_TARGET_ESP32C3
help
Its not able to stall ESP32C3 systimer in sleep.
To fix related RTOS TICK issue, select it to disable related systimer during sleep.
TODO: IDF-7036
endmenu
menu "RTC Clock Config"
orsource "./port/$IDF_TARGET/Kconfig.rtc"
endmenu
menu "Peripheral Control"
config PERIPH_CTRL_FUNC_IN_IRAM
bool "Place peripheral control functions into IRAM"
default n
help
Place peripheral control functions (e.g. periph_module_reset) into IRAM,
so that these functions can be IRAM-safe and able to be called in the other IRAM interrupt context.
endmenu
menu "ETM Configuration"
depends on SOC_ETM_SUPPORTED
config ETM_ENABLE_DEBUG_LOG
bool "Enable debug log"
default n
help
Wether to enable the debug log message for ETM core driver.
Note that, this option only controls the ETM related driver log, won't affect other drivers.
endmenu # ETM Configuration
rsource "./dma/Kconfig.dma"
menu "Main XTAL Config"
# TODO: IDF-8943
choice XTAL_FREQ_SEL
prompt "Main XTAL frequency"
default XTAL_FREQ_48 if SOC_XTAL_SUPPORT_48M
default XTAL_FREQ_40 if (SOC_XTAL_SUPPORT_40M && !SOC_XTAL_SUPPORT_48M)
help
This option selects the operating frequency of the XTAL (crystal) clock used to drive the ESP target.
The selected value MUST reflect the frequency of the given hardware.
Note: The XTAL_FREQ_AUTO option allows the ESP target to automatically estimating XTAL clock's
operating frequency. However, this feature is only supported on the ESP32. The ESP32 uses the
internal 8MHZ as a reference when estimating. Due to the internal oscillator's frequency being
temperature dependent, usage of the XTAL_FREQ_AUTO is not recommended in applications that operate
in high ambient temperatures or use high-temperature qualified chips and modules.
config XTAL_FREQ_24
depends on SOC_XTAL_SUPPORT_24M
bool "24 MHz"
config XTAL_FREQ_26
depends on SOC_XTAL_SUPPORT_26M
bool "26 MHz"
config XTAL_FREQ_32
depends on SOC_XTAL_SUPPORT_32M
bool "32 MHz"
config XTAL_FREQ_40
depends on SOC_XTAL_SUPPORT_40M
bool "40 MHz"
config XTAL_FREQ_48
depends on SOC_XTAL_SUPPORT_48M
bool "48 MHz"
config XTAL_FREQ_AUTO
depends on SOC_XTAL_SUPPORT_AUTO_DETECT
bool "Autodetect"
endchoice
# soc_xtal_freq_t enum in soc/clk_tree_defs.h lists the XTAL frequencies can be supported
# SOC_XTAL_SUPPORT_XXX in soc_caps.h lists the XTAL frequencies already supported
config XTAL_FREQ
int
default 24 if XTAL_FREQ_24
default 26 if XTAL_FREQ_26
default 32 if XTAL_FREQ_32
default 40 if XTAL_FREQ_40
default 48 if XTAL_FREQ_48
default 0 if XTAL_FREQ_AUTO
endmenu
menu "Crypto DPA Protection"
depends on SOC_CRYPTO_DPA_PROTECTION_SUPPORTED
config ESP_CRYPTO_DPA_PROTECTION_AT_STARTUP
bool "Enable crypto DPA protection at startup"
default y
help
This config controls the DPA (Differential Power Analysis) protection
knob for the crypto peripherals. DPA protection dynamically adjusts the
clock frequency of the crypto peripheral. DPA protection helps to make it
difficult to perform SCA attacks on the crypto peripherals. However,
there is also associated performance impact based on the security level
set. Please refer to the TRM for more details.
choice ESP_CRYPTO_DPA_PROTECTION_LEVEL
prompt "DPA protection level"
depends on ESP_CRYPTO_DPA_PROTECTION_AT_STARTUP
default ESP_CRYPTO_DPA_PROTECTION_LEVEL_LOW
help
Configure the DPA protection security level
config ESP_CRYPTO_DPA_PROTECTION_LEVEL_LOW
bool "Security level low"
config ESP_CRYPTO_DPA_PROTECTION_LEVEL_MEDIUM
bool "Security level medium"
config ESP_CRYPTO_DPA_PROTECTION_LEVEL_HIGH
bool "Security level high"
endchoice
config ESP_CRYPTO_DPA_PROTECTION_LEVEL
int
default 1 if ESP_CRYPTO_DPA_PROTECTION_LEVEL_LOW
default 2 if ESP_CRYPTO_DPA_PROTECTION_LEVEL_MEDIUM
default 3 if ESP_CRYPTO_DPA_PROTECTION_LEVEL_HIGH
endmenu
menu "LDO Config"
depends on SOC_MULTI_USAGE_LDO_SUPPORTED
orsource "./port/$IDF_TARGET/Kconfig.ldo"
endmenu
# Invisible bringup bypass options for esp_hw_support component
config ESP_BRINGUP_BYPASS_CPU_CLK_SETTING
bool
# TODO: [ESP32C5] IDF-8642 IDF_TARGET_ESP32C5 is added because clock
# is required when bringup on C5 beta3, remove it when clock tree is
# supported
default y if !SOC_CLK_TREE_SUPPORTED && !IDF_TARGET_ESP32C5
default n
help
This option is only used for new chip bringup, when
clock support isn't done yet. So with this option,
we use xtal on FPGA as the clock source.
config ESP_BRINGUP_BYPASS_RANDOM_SETTING
bool
default y if !SOC_RNG_SUPPORTED
default n
help
This option is only used for new chip bringup, when
RNG isn't done yet. So with this option, we use 0x5A
to fill the random buffers
config ESP_SPI_BUS_LOCK_ISR_FUNCS_IN_IRAM
bool
default n
config ESP_SPI_BUS_LOCK_FUNCS_IN_IRAM
bool
default n
endmenu