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https://github.com/espressif/esp-idf.git
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26c4550e6d
User's custom data are not taken into account during the CRC calculation anymore. Which means taht the retained mem structure is not systematically erased on each reboot anymore.
1026 lines
49 KiB
Plaintext
1026 lines
49 KiB
Plaintext
menu "Bootloader config"
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config BOOTLOADER_OFFSET_IN_FLASH
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hex
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default 0x1000 if IDF_TARGET_ESP32 || IDF_TARGET_ESP32S2
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default 0x0
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help
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Offset address that 2nd bootloader will be flashed to.
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The value is determined by the ROM bootloader.
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It's not configurable in ESP-IDF.
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choice BOOTLOADER_COMPILER_OPTIMIZATION
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prompt "Bootloader optimization Level"
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default BOOTLOADER_COMPILER_OPTIMIZATION_SIZE
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help
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This option sets compiler optimization level (gcc -O argument)
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for the bootloader.
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- The default "Size" setting will add the -0s flag to CFLAGS.
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- The "Debug" setting will add the -Og flag to CFLAGS.
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- The "Performance" setting will add the -O2 flag to CFLAGS.
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- The "None" setting will add the -O0 flag to CFLAGS.
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Note that custom optimization levels may be unsupported.
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config BOOTLOADER_COMPILER_OPTIMIZATION_SIZE
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bool "Size (-Os)"
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config BOOTLOADER_COMPILER_OPTIMIZATION_DEBUG
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bool "Debug (-Og)"
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config BOOTLOADER_COMPILER_OPTIMIZATION_PERF
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bool "Optimize for performance (-O2)"
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config BOOTLOADER_COMPILER_OPTIMIZATION_NONE
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bool "Debug without optimization (-O0)"
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endchoice
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choice BOOTLOADER_LOG_LEVEL
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bool "Bootloader log verbosity"
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default BOOTLOADER_LOG_LEVEL_INFO
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help
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Specify how much output to see in bootloader logs.
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config BOOTLOADER_LOG_LEVEL_NONE
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bool "No output"
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config BOOTLOADER_LOG_LEVEL_ERROR
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bool "Error"
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config BOOTLOADER_LOG_LEVEL_WARN
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bool "Warning"
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config BOOTLOADER_LOG_LEVEL_INFO
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bool "Info"
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config BOOTLOADER_LOG_LEVEL_DEBUG
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bool "Debug"
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config BOOTLOADER_LOG_LEVEL_VERBOSE
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bool "Verbose"
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endchoice
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config BOOTLOADER_LOG_LEVEL
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int
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default 0 if BOOTLOADER_LOG_LEVEL_NONE
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default 1 if BOOTLOADER_LOG_LEVEL_ERROR
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default 2 if BOOTLOADER_LOG_LEVEL_WARN
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default 3 if BOOTLOADER_LOG_LEVEL_INFO
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default 4 if BOOTLOADER_LOG_LEVEL_DEBUG
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default 5 if BOOTLOADER_LOG_LEVEL_VERBOSE
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config BOOTLOADER_SPI_CUSTOM_WP_PIN
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bool "Use custom SPI Flash WP Pin when flash pins set in eFuse (read help)"
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depends on IDF_TARGET_ESP32 && (ESPTOOLPY_FLASHMODE_QIO || ESPTOOLPY_FLASHMODE_QOUT)
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default y if BOOTLOADER_SPI_WP_PIN != 7 # backwards compatibility, can remove in IDF 5
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default n
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help
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This setting is only used if the SPI flash pins have been overridden by setting the eFuses
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SPI_PAD_CONFIG_xxx, and the SPI flash mode is QIO or QOUT.
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When this is the case, the eFuse config only defines 3 of the 4 Quad I/O data pins. The WP pin (aka
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ESP32 pin "SD_DATA_3" or SPI flash pin "IO2") is not specified in eFuse. The same pin is also used
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for external SPIRAM if it is enabled.
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If this config item is set to N (default), the correct WP pin will be automatically used for any
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Espressif chip or module with integrated flash. If a custom setting is needed, set this config item to
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Y and specify the GPIO number connected to the WP.
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config BOOTLOADER_SPI_WP_PIN
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int "Custom SPI Flash WP Pin"
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range 0 33
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default 7
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depends on IDF_TARGET_ESP32 && (ESPTOOLPY_FLASHMODE_QIO || ESPTOOLPY_FLASHMODE_QOUT)
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#depends on BOOTLOADER_SPI_CUSTOM_WP_PIN # backwards compatibility, can uncomment in IDF 5
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help
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The option "Use custom SPI Flash WP Pin" must be set or this value is ignored
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If burning a customized set of SPI flash pins in eFuse and using QIO or QOUT mode for flash, set this
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value to the GPIO number of the SPI flash WP pin.
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choice BOOTLOADER_VDDSDIO_BOOST
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bool "VDDSDIO LDO voltage"
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default BOOTLOADER_VDDSDIO_BOOST_1_9V
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help
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If this option is enabled, and VDDSDIO LDO is set to 1.8V (using eFuse
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or MTDI bootstrapping pin), bootloader will change LDO settings to
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output 1.9V instead. This helps prevent flash chip from browning out
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during flash programming operations.
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This option has no effect if VDDSDIO is set to 3.3V, or if the internal
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VDDSDIO regulator is disabled via eFuse.
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config BOOTLOADER_VDDSDIO_BOOST_1_8V
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bool "1.8V"
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depends on !ESPTOOLPY_FLASHFREQ_80M
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config BOOTLOADER_VDDSDIO_BOOST_1_9V
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bool "1.9V"
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endchoice
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config BOOTLOADER_FACTORY_RESET
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bool "GPIO triggers factory reset"
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default N
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help
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Allows to reset the device to factory settings:
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- clear one or more data partitions;
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- boot from "factory" partition.
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The factory reset will occur if there is a GPIO input held at the configured level while
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device starts up. See settings below.
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config BOOTLOADER_NUM_PIN_FACTORY_RESET
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int "Number of the GPIO input for factory reset"
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depends on BOOTLOADER_FACTORY_RESET
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range 0 39 if IDF_TARGET_ESP32
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range 0 44 if IDF_TARGET_ESP32S2
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default 4
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help
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The selected GPIO will be configured as an input with internal pull-up enabled (note that on some SoCs.
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not all pins have an internal pull-up, consult the hardware datasheet for details.) To trigger a factory
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reset, this GPIO must be held high or low (as configured) on startup.
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choice BOOTLOADER_FACTORY_RESET_PIN_LEVEL
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bool "Factory reset GPIO level"
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depends on BOOTLOADER_FACTORY_RESET
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default BOOTLOADER_FACTORY_RESET_PIN_LOW
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help
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Pin level for factory reset, can be triggered on low or high.
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config BOOTLOADER_FACTORY_RESET_PIN_LOW
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bool "Reset on GPIO low"
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config BOOTLOADER_FACTORY_RESET_PIN_HIGH
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bool "Reset on GPIO high"
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endchoice
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config BOOTLOADER_OTA_DATA_ERASE
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bool "Clear OTA data on factory reset (select factory partition)"
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depends on BOOTLOADER_FACTORY_RESET
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help
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The device will boot from "factory" partition (or OTA slot 0 if no factory partition is present) after a
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factory reset.
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config BOOTLOADER_DATA_FACTORY_RESET
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string "Comma-separated names of partitions to clear on factory reset"
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depends on BOOTLOADER_FACTORY_RESET
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default "nvs"
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help
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Allows customers to select which data partitions will be erased while factory reset.
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Specify the names of partitions as a comma-delimited with optional spaces for readability. (Like this:
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"nvs, phy_init, ...")
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Make sure that the name specified in the partition table and here are the same.
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Partitions of type "app" cannot be specified here.
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config BOOTLOADER_APP_TEST
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bool "GPIO triggers boot from test app partition"
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default N
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depends on !BOOTLOADER_APP_ANTI_ROLLBACK
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help
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Allows to run the test app from "TEST" partition.
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A boot from "test" partition will occur if there is a GPIO input pulled low while device starts up.
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See settings below.
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config BOOTLOADER_NUM_PIN_APP_TEST
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int "Number of the GPIO input to boot TEST partition"
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depends on BOOTLOADER_APP_TEST
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range 0 39
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default 18
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help
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The selected GPIO will be configured as an input with internal pull-up enabled.
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To trigger a test app, this GPIO must be pulled low on reset.
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After the GPIO input is deactivated and the device reboots, the old application will boot.
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(factory or OTA[x]).
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Note that GPIO34-39 do not have an internal pullup and an external one must be provided.
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choice BOOTLOADER_APP_TEST_PIN_LEVEL
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bool "App test GPIO level"
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depends on BOOTLOADER_APP_TEST
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default BOOTLOADER_APP_TEST_PIN_LOW
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help
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Pin level for app test, can be triggered on low or high.
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config BOOTLOADER_APP_TEST_PIN_LOW
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bool "Enter test app on GPIO low"
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config BOOTLOADER_APP_TEST_PIN_HIGH
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bool "Enter test app on GPIO high"
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endchoice
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config BOOTLOADER_HOLD_TIME_GPIO
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int "Hold time of GPIO for reset/test mode (seconds)"
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depends on BOOTLOADER_FACTORY_RESET || BOOTLOADER_APP_TEST
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default 5
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help
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The GPIO must be held low continuously for this period of time after reset
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before a factory reset or test partition boot (as applicable) is performed.
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config BOOTLOADER_REGION_PROTECTION_ENABLE
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bool "Enable protection for unmapped memory regions"
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default y
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help
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Protects the unmapped memory regions of the entire address space from unintended accesses.
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This will ensure that an exception will be triggered whenever the CPU performs a memory
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operation on unmapped regions of the address space.
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config BOOTLOADER_WDT_ENABLE
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bool "Use RTC watchdog in start code"
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default y
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help
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Tracks the execution time of startup code.
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If the execution time is exceeded, the RTC_WDT will restart system.
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It is also useful to prevent a lock up in start code caused by an unstable power source.
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NOTE: Tracks the execution time starts from the bootloader code - re-set timeout, while selecting the
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source for slow_clk - and ends calling app_main.
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Re-set timeout is needed due to WDT uses a SLOW_CLK clock source. After changing a frequency slow_clk a
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time of WDT needs to re-set for new frequency.
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slow_clk depends on RTC_CLK_SRC (INTERNAL_RC or EXTERNAL_CRYSTAL).
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config BOOTLOADER_WDT_DISABLE_IN_USER_CODE
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bool "Allows RTC watchdog disable in user code"
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depends on BOOTLOADER_WDT_ENABLE
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default n
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help
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If this option is set, the ESP-IDF app must explicitly reset, feed, or disable the rtc_wdt in
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the app's own code.
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If this option is not set (default), then rtc_wdt will be disabled by ESP-IDF before calling
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the app_main() function.
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Use function rtc_wdt_feed() for resetting counter of rtc_wdt.
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Use function rtc_wdt_disable() for disabling rtc_wdt.
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config BOOTLOADER_WDT_TIME_MS
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int "Timeout for RTC watchdog (ms)"
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depends on BOOTLOADER_WDT_ENABLE
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default 9000
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range 0 120000
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help
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Verify that this parameter is correct and more then the execution time.
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Pay attention to options such as reset to factory, trigger test partition and encryption on boot
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- these options can increase the execution time.
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Note: RTC_WDT will reset while encryption operations will be performed.
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config BOOTLOADER_APP_ROLLBACK_ENABLE
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bool "Enable app rollback support"
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default n
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help
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After updating the app, the bootloader runs a new app with the "ESP_OTA_IMG_PENDING_VERIFY" state set.
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This state prevents the re-run of this app. After the first boot of the new app in the user code, the
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function should be called to confirm the operability of the app or vice versa about its non-operability.
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If the app is working, then it is marked as valid. Otherwise, it is marked as not valid and rolls back to
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the previous working app. A reboot is performed, and the app is booted before the software update.
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Note: If during the first boot a new app the power goes out or the WDT works, then roll back will happen.
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Rollback is possible only between the apps with the same security versions.
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config BOOTLOADER_APP_ANTI_ROLLBACK
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bool "Enable app anti-rollback support"
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depends on BOOTLOADER_APP_ROLLBACK_ENABLE
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default n
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help
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This option prevents rollback to previous firmware/application image with lower security version.
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config BOOTLOADER_APP_SECURE_VERSION
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int "eFuse secure version of app"
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depends on BOOTLOADER_APP_ANTI_ROLLBACK
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default 0
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help
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The secure version is the sequence number stored in the header of each firmware.
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The security version is set in the bootloader, version is recorded in the eFuse field
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as the number of set ones. The allocated number of bits in the efuse field
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for storing the security version is limited (see BOOTLOADER_APP_SEC_VER_SIZE_EFUSE_FIELD option).
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Bootloader: When bootloader selects an app to boot, an app is selected that has
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a security version greater or equal that recorded in eFuse field.
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The app is booted with a higher (or equal) secure version.
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The security version is worth increasing if in previous versions there is
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a significant vulnerability and their use is not acceptable.
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Your partition table should has a scheme with ota_0 + ota_1 (without factory).
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config BOOTLOADER_APP_SEC_VER_SIZE_EFUSE_FIELD
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int "Size of the efuse secure version field"
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depends on BOOTLOADER_APP_ANTI_ROLLBACK
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range 1 32 if IDF_TARGET_ESP32
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default 32 if IDF_TARGET_ESP32
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range 1 4 if IDF_TARGET_ESP32C2
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default 4 if IDF_TARGET_ESP32C2
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range 1 16
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default 16
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help
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The size of the efuse secure version field.
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Its length is limited to 32 bits for ESP32 and 16 bits for ESP32-S2.
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This determines how many times the security version can be increased.
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config BOOTLOADER_EFUSE_SECURE_VERSION_EMULATE
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bool "Emulate operations with efuse secure version(only test)"
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default n
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depends on BOOTLOADER_APP_ANTI_ROLLBACK
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select EFUSE_VIRTUAL
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select EFUSE_VIRTUAL_KEEP_IN_FLASH
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help
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This option allows to emulate read/write operations with all eFuses and efuse secure version.
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It allows to test anti-rollback implemention without permanent write eFuse bits.
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There should be an entry in partition table with following details: `emul_efuse, data, efuse, , 0x2000`.
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This option enables: EFUSE_VIRTUAL and EFUSE_VIRTUAL_KEEP_IN_FLASH.
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config BOOTLOADER_SKIP_VALIDATE_IN_DEEP_SLEEP
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bool "Skip image validation when exiting deep sleep"
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# note: dependencies for this config item are different to other "skip image validation"
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# options, allowing to turn on "allow insecure options" and have secure boot with
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# "skip validation when existing deep sleep". Keeping this to avoid a breaking change,
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# but - as noted in help - it invalidates the integrity of Secure Boot checks
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depends on SOC_RTC_FAST_MEM_SUPPORTED && ((SECURE_BOOT && SECURE_BOOT_INSECURE) || !SECURE_BOOT)
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default n
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help
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This option disables the normal validation of an image coming out of
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deep sleep (checksums, SHA256, and signature). This is a trade-off
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between wakeup performance from deep sleep, and image integrity checks.
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Only enable this if you know what you are doing. It should not be used
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in conjunction with using deep_sleep() entry and changing the active OTA
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partition as this would skip the validation upon first load of the new
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OTA partition.
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It is possible to enable this option with Secure Boot if "allow insecure
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options" is enabled, however it's strongly recommended to NOT enable it as
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it may allow a Secure Boot bypass.
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config BOOTLOADER_SKIP_VALIDATE_ON_POWER_ON
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bool "Skip image validation from power on reset (READ HELP FIRST)"
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# only available if both Secure Boot and Check Signature on Boot are disabled
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depends on !SECURE_SIGNED_ON_BOOT
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default n
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help
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Some applications need to boot very quickly from power on. By default, the entire app binary
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is read from flash and verified which takes up a significant portion of the boot time.
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Enabling this option will skip validation of the app when the SoC boots from power on.
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Note that in this case it's not possible for the bootloader to detect if an app image is
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corrupted in the flash, therefore it's not possible to safely fall back to a different app
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partition. Flash corruption of this kind is unlikely but can happen if there is a serious
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firmware bug or physical damage.
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Following other reset types, the bootloader will still validate the app image. This increases
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the chances that flash corruption resulting in a crash can be detected following soft reset, and
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the bootloader will fall back to a valid app image. To increase the chances of successfully recovering
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from a flash corruption event, keep the option BOOTLOADER_WDT_ENABLE enabled and consider also enabling
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BOOTLOADER_WDT_DISABLE_IN_USER_CODE - then manually disable the RTC Watchdog once the app is running.
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In addition, enable both the Task and Interrupt watchdog timers with reset options set.
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config BOOTLOADER_SKIP_VALIDATE_ALWAYS
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bool "Skip image validation always (READ HELP FIRST)"
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# only available if both Secure Boot and Check Signature on Boot are disabled
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depends on !SECURE_SIGNED_ON_BOOT
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default n
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select BOOTLOADER_SKIP_VALIDATE_IN_DEEP_SLEEP
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select BOOTLOADER_SKIP_VALIDATE_ON_POWER_ON
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help
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Selecting this option prevents the bootloader from ever validating the app image before
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booting it. Any flash corruption of the selected app partition will make the entire SoC
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unbootable.
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Although flash corruption is a very rare case, it is not recommended to select this option.
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Consider selecting "Skip image validation from power on reset" instead. However, if boot time
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is the only important factor then it can be enabled.
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config BOOTLOADER_RESERVE_RTC_SIZE
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hex
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depends on SOC_RTC_FAST_MEM_SUPPORTED
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default 0x10 if BOOTLOADER_SKIP_VALIDATE_IN_DEEP_SLEEP || BOOTLOADER_CUSTOM_RESERVE_RTC
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default 0
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help
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Reserve RTC FAST memory for Skip image validation. This option in bytes.
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This option reserves an area in the RTC FAST memory (access only PRO_CPU).
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Used to save the addresses of the selected application.
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When a wakeup occurs (from Deep sleep), the bootloader retrieves it and
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loads the application without validation.
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config BOOTLOADER_CUSTOM_RESERVE_RTC
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bool "Reserve RTC FAST memory for custom purposes"
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depends on SOC_RTC_FAST_MEM_SUPPORTED
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default n
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help
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This option allows the customer to place data in the RTC FAST memory,
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this area remains valid when rebooted, except for power loss.
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This memory is located at a fixed address and is available
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for both the bootloader and the application.
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(The application and bootoloader must be compiled with the same option).
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The RTC FAST memory has access only through PRO_CPU.
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config BOOTLOADER_CUSTOM_RESERVE_RTC_SIZE
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hex "Size in bytes for custom purposes"
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default 0
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depends on BOOTLOADER_CUSTOM_RESERVE_RTC
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help
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This option reserves in RTC FAST memory the area for custom purposes.
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If you want to create your own bootloader and save more information
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in this area of memory, you can increase it. It must be a multiple of 4 bytes.
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This area (rtc_retain_mem_t) is reserved and has access from the bootloader and an application.
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config BOOTLOADER_FLASH_XMC_SUPPORT
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bool "Enable the support for flash chips of XMC (READ HELP FIRST)"
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default y
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help
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Perform the startup flow recommended by XMC. Please consult XMC for the details of this flow.
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XMC chips will be forbidden to be used, when this option is disabled.
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DON'T DISABLE THIS UNLESS YOU KNOW WHAT YOU ARE DOING.
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endmenu # Bootloader
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menu "Security features"
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# These three are the actual options to check in code,
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# selected by the displayed options
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config SECURE_SIGNED_ON_BOOT
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bool
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default y
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depends on SECURE_BOOT || SECURE_SIGNED_ON_BOOT_NO_SECURE_BOOT
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config SECURE_SIGNED_ON_UPDATE
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bool
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default y
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depends on SECURE_BOOT || SECURE_SIGNED_ON_UPDATE_NO_SECURE_BOOT
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config SECURE_SIGNED_APPS
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bool
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default y
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select MBEDTLS_ECP_DP_SECP256R1_ENABLED
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|
select MBEDTLS_ECP_C
|
|
select MBEDTLS_ECDH_C
|
|
select MBEDTLS_ECDSA_C
|
|
depends on SECURE_SIGNED_ON_BOOT || SECURE_SIGNED_ON_UPDATE
|
|
|
|
config SECURE_BOOT_V2_RSA_SUPPORTED
|
|
bool
|
|
default y
|
|
# RSA secure boot is supported in ESP32 revision >= ECO3
|
|
depends on (IDF_TARGET_ESP32 && ESP32_REV_MIN >= 3) || SOC_SECURE_BOOT_V2_RSA
|
|
|
|
config SECURE_BOOT_V2_ECC_SUPPORTED
|
|
bool
|
|
default y
|
|
depends on SOC_SECURE_BOOT_V2_ECC
|
|
|
|
config SECURE_BOOT_V1_SUPPORTED
|
|
bool
|
|
default y
|
|
depends on SOC_SECURE_BOOT_V1
|
|
|
|
config SECURE_BOOT_V2_PREFERRED
|
|
bool
|
|
default y
|
|
depends on ESP32_REV_MIN >= 3
|
|
|
|
config SECURE_BOOT_V2_ECDSA_ENABLED
|
|
bool
|
|
default y if SECURE_BOOT_V2_ENABLED && SECURE_BOOT_V2_ECC_SUPPORTED
|
|
|
|
config SECURE_BOOT_V2_RSA_ENABLED
|
|
bool
|
|
default y if SECURE_BOOT_V2_ENABLED && SECURE_BOOT_V2_RSA_SUPPORTED
|
|
|
|
config SECURE_BOOT_FLASH_ENC_KEYS_BURN_TOGETHER
|
|
bool
|
|
default y if SOC_EFUSE_CONSISTS_OF_ONE_KEY_BLOCK && SECURE_BOOT && SECURE_FLASH_ENC_ENABLED
|
|
# ESP32-C2 has one key block for SB and FE keys. These keys must be burned at the same time.
|
|
|
|
config SECURE_SIGNED_APPS_NO_SECURE_BOOT
|
|
bool "Require signed app images"
|
|
depends on !SECURE_BOOT
|
|
help
|
|
Require apps to be signed to verify their integrity.
|
|
|
|
This option uses the same app signature scheme as hardware secure boot, but unlike hardware secure boot it
|
|
does not prevent the bootloader from being physically updated. This means that the device can be secured
|
|
against remote network access, but not physical access. Compared to using hardware Secure Boot this option
|
|
is much simpler to implement.
|
|
|
|
choice SECURE_SIGNED_APPS_SCHEME
|
|
bool "App Signing Scheme"
|
|
depends on SECURE_BOOT || SECURE_SIGNED_APPS_NO_SECURE_BOOT
|
|
default SECURE_SIGNED_APPS_ECDSA_SCHEME if SECURE_BOOT_V1_ENABLED
|
|
default SECURE_SIGNED_APPS_RSA_SCHEME if SECURE_BOOT_V2_RSA_SUPPORTED
|
|
default SECURE_SIGNED_APPS_ECDSA_V2_SCHEME if SECURE_BOOT_V2_ECC_SUPPORTED
|
|
help
|
|
Select the Secure App signing scheme. Depends on the Chip Revision.
|
|
There are two secure boot versions:
|
|
|
|
1. Secure boot V1
|
|
- Legacy custom secure boot scheme. Supported in ESP32 SoC.
|
|
|
|
2. Secure boot V2
|
|
- RSA based secure boot scheme.
|
|
Supported in ESP32-ECO3 (ESP32 Chip Revision 3 onwards), ESP32-S2, ESP32-C3, ESP32-S3 SoCs.
|
|
|
|
- ECDSA based secure boot scheme. Supported in ESP32-C2 SoC.
|
|
|
|
config SECURE_SIGNED_APPS_ECDSA_SCHEME
|
|
bool "ECDSA"
|
|
depends on SECURE_BOOT_V1_SUPPORTED && (SECURE_SIGNED_APPS_NO_SECURE_BOOT || SECURE_BOOT_V1_ENABLED)
|
|
help
|
|
Embeds the ECDSA public key in the bootloader and signs the application with an ECDSA key.
|
|
Refer to the documentation before enabling.
|
|
|
|
config SECURE_SIGNED_APPS_RSA_SCHEME
|
|
bool "RSA"
|
|
depends on SECURE_BOOT_V2_RSA_SUPPORTED && (SECURE_SIGNED_APPS_NO_SECURE_BOOT || SECURE_BOOT_V2_ENABLED)
|
|
help
|
|
Appends the RSA-3072 based Signature block to the application.
|
|
Refer to <Secure Boot Version 2 documentation link> before enabling.
|
|
|
|
config SECURE_SIGNED_APPS_ECDSA_V2_SCHEME
|
|
bool "ECDSA (V2)"
|
|
depends on SECURE_BOOT_V2_ECC_SUPPORTED && (SECURE_SIGNED_APPS_NO_SECURE_BOOT || SECURE_BOOT_V2_ENABLED)
|
|
help
|
|
For Secure boot V2 (e.g., ESP32-C2 SoC), appends ECDSA based signature block to the application.
|
|
Refer to documentation before enabling.
|
|
|
|
endchoice
|
|
|
|
choice SECURE_BOOT_ECDSA_KEY_LEN_SIZE
|
|
bool "ECDSA key size"
|
|
depends on SECURE_SIGNED_APPS_ECDSA_V2_SCHEME
|
|
default SECURE_BOOT_ECDSA_KEY_LEN_256_BITS
|
|
help
|
|
Select the ECDSA key size. Two key sizes are supported
|
|
|
|
- 192 bit key using NISTP192 curve
|
|
- 256 bit key using NISTP256 curve (Recommended)
|
|
|
|
The advantage of using 256 bit key is the extra randomness which makes it difficult to be
|
|
bruteforced compared to 192 bit key.
|
|
At present, both key sizes are practically implausible to bruteforce.
|
|
|
|
config SECURE_BOOT_ECDSA_KEY_LEN_192_BITS
|
|
bool "Using ECC curve NISTP192"
|
|
depends on SECURE_SIGNED_APPS_ECDSA_V2_SCHEME
|
|
|
|
config SECURE_BOOT_ECDSA_KEY_LEN_256_BITS
|
|
bool "Using ECC curve NISTP256 (Recommended)"
|
|
depends on SECURE_SIGNED_APPS_ECDSA_V2_SCHEME
|
|
|
|
endchoice
|
|
|
|
config SECURE_SIGNED_ON_BOOT_NO_SECURE_BOOT
|
|
bool "Bootloader verifies app signatures"
|
|
default n
|
|
depends on SECURE_SIGNED_APPS_NO_SECURE_BOOT && SECURE_SIGNED_APPS_ECDSA_SCHEME
|
|
help
|
|
If this option is set, the bootloader will be compiled with code to verify that an app is signed before
|
|
booting it.
|
|
|
|
If hardware secure boot is enabled, this option is always enabled and cannot be disabled.
|
|
If hardware secure boot is not enabled, this option doesn't add significant security by itself so most
|
|
users will want to leave it disabled.
|
|
|
|
config SECURE_SIGNED_ON_UPDATE_NO_SECURE_BOOT
|
|
bool "Verify app signature on update"
|
|
default y
|
|
depends on SECURE_SIGNED_APPS_NO_SECURE_BOOT
|
|
help
|
|
If this option is set, any OTA updated apps will have the signature verified before being considered valid.
|
|
|
|
When enabled, the signature is automatically checked whenever the esp_ota_ops.h APIs are used for OTA
|
|
updates, or esp_image_format.h APIs are used to verify apps.
|
|
|
|
If hardware secure boot is enabled, this option is always enabled and cannot be disabled.
|
|
If hardware secure boot is not enabled, this option still adds significant security against network-based
|
|
attackers by preventing spoofing of OTA updates.
|
|
|
|
config SECURE_BOOT
|
|
bool "Enable hardware Secure Boot in bootloader (READ DOCS FIRST)"
|
|
default n
|
|
# Secure boot is not supported for ESP32-C3 revision < ECO3
|
|
depends on SOC_SECURE_BOOT_SUPPORTED && !(IDF_TARGET_ESP32C3 && ESP32C3_REV_MIN < 3)
|
|
select ESPTOOLPY_NO_STUB if !IDF_TARGET_ESP32 && !IDF_TARGET_ESP32S2
|
|
help
|
|
Build a bootloader which enables Secure Boot on first boot.
|
|
|
|
Once enabled, Secure Boot will not boot a modified bootloader. The bootloader will only load a partition
|
|
table or boot an app if the data has a verified digital signature. There are implications for reflashing
|
|
updated apps once secure boot is enabled.
|
|
|
|
When enabling secure boot, JTAG and ROM BASIC Interpreter are permanently disabled by default.
|
|
|
|
choice SECURE_BOOT_VERSION
|
|
bool "Select secure boot version"
|
|
default SECURE_BOOT_V2_ENABLED if SECURE_BOOT_V2_PREFERRED
|
|
depends on SECURE_BOOT
|
|
help
|
|
Select the Secure Boot Version. Depends on the Chip Revision.
|
|
Secure Boot V2 is the new RSA / ECDSA based secure boot scheme.
|
|
|
|
- RSA based scheme is supported in ESP32 (Revision 3 onwards), ESP32-S2, ESP32-C3 (ECO3), ESP32-S3.
|
|
- ECDSA based scheme is supported in ESP32-C2 SoC.
|
|
|
|
Please note that, RSA or ECDSA secure boot is property of specific SoC based on its HW design, supported
|
|
crypto accelerators, die-size, cost and similar parameters. Please note that RSA scheme has requirement
|
|
for bigger key sizes but at the same time it is comparatively faster than ECDSA verification.
|
|
|
|
Secure Boot V1 is the AES based (custom) secure boot scheme supported in ESP32 SoC.
|
|
|
|
config SECURE_BOOT_V1_ENABLED
|
|
bool "Enable Secure Boot version 1"
|
|
depends on SECURE_BOOT_V1_SUPPORTED
|
|
help
|
|
Build a bootloader which enables secure boot version 1 on first boot.
|
|
Refer to the Secure Boot section of the ESP-IDF Programmer's Guide for this version before enabling.
|
|
|
|
config SECURE_BOOT_V2_ENABLED
|
|
bool "Enable Secure Boot version 2"
|
|
depends on SECURE_BOOT_V2_RSA_SUPPORTED || SECURE_BOOT_V2_ECC_SUPPORTED
|
|
help
|
|
Build a bootloader which enables Secure Boot version 2 on first boot.
|
|
Refer to Secure Boot V2 section of the ESP-IDF Programmer's Guide for this version before enabling.
|
|
|
|
endchoice
|
|
|
|
choice SECURE_BOOTLOADER_MODE
|
|
bool "Secure bootloader mode"
|
|
depends on SECURE_BOOT_V1_ENABLED
|
|
default SECURE_BOOTLOADER_ONE_TIME_FLASH
|
|
|
|
config SECURE_BOOTLOADER_ONE_TIME_FLASH
|
|
bool "One-time flash"
|
|
help
|
|
On first boot, the bootloader will generate a key which is not readable externally or by software. A
|
|
digest is generated from the bootloader image itself. This digest will be verified on each subsequent
|
|
boot.
|
|
|
|
Enabling this option means that the bootloader cannot be changed after the first time it is booted.
|
|
|
|
config SECURE_BOOTLOADER_REFLASHABLE
|
|
bool "Reflashable"
|
|
help
|
|
Generate a reusable secure bootloader key, derived (via SHA-256) from the secure boot signing key.
|
|
|
|
This allows the secure bootloader to be re-flashed by anyone with access to the secure boot signing
|
|
key.
|
|
|
|
This option is less secure than one-time flash, because a leak of the digest key from one device
|
|
allows reflashing of any device that uses it.
|
|
|
|
endchoice
|
|
|
|
config SECURE_BOOT_BUILD_SIGNED_BINARIES
|
|
bool "Sign binaries during build"
|
|
depends on SECURE_SIGNED_APPS
|
|
default y
|
|
help
|
|
Once secure boot or signed app requirement is enabled, app images are required to be signed.
|
|
|
|
If enabled (default), these binary files are signed as part of the build process. The file named in
|
|
"Secure boot private signing key" will be used to sign the image.
|
|
|
|
If disabled, unsigned app/partition data will be built. They must be signed manually using espsecure.py.
|
|
Version 1 to enable ECDSA Based Secure Boot and Version 2 to enable RSA based Secure Boot.
|
|
(for example, on a remote signing server.)
|
|
|
|
config SECURE_BOOT_SIGNING_KEY
|
|
string "Secure boot private signing key"
|
|
depends on SECURE_BOOT_BUILD_SIGNED_BINARIES
|
|
default "secure_boot_signing_key.pem"
|
|
help
|
|
Path to the key file used to sign app images.
|
|
|
|
Key file is an ECDSA private key (NIST256p curve) in PEM format for Secure Boot V1.
|
|
Key file is an RSA private key in PEM format for Secure Boot V2.
|
|
|
|
Path is evaluated relative to the project directory.
|
|
|
|
You can generate a new signing key by running the following command:
|
|
espsecure.py generate_signing_key secure_boot_signing_key.pem
|
|
|
|
See the Secure Boot section of the ESP-IDF Programmer's Guide for this version for details.
|
|
|
|
config SECURE_BOOT_VERIFICATION_KEY
|
|
string "Secure boot public signature verification key"
|
|
depends on SECURE_SIGNED_APPS && !SECURE_BOOT_BUILD_SIGNED_BINARIES && !SECURE_SIGNED_APPS_RSA_SCHEME
|
|
default "signature_verification_key.bin"
|
|
help
|
|
Path to a public key file used to verify signed images.
|
|
Secure Boot V1: This ECDSA public key is compiled into the bootloader and/or
|
|
app, to verify app images.
|
|
Secure Boot V2: This RSA public key is compiled into the signature block at
|
|
the end of the bootloader/app.
|
|
|
|
Key file is in raw binary format, and can be extracted from a
|
|
PEM formatted private key using the espsecure.py
|
|
extract_public_key command.
|
|
|
|
Refer to the Secure Boot section of the ESP-IDF Programmer's Guide for this version before enabling.
|
|
|
|
config SECURE_BOOT_ENABLE_AGGRESSIVE_KEY_REVOKE
|
|
bool "Enable Aggressive key revoke strategy"
|
|
depends on SECURE_BOOT && SOC_SUPPORT_SECURE_BOOT_REVOKE_KEY
|
|
default N
|
|
help
|
|
If this option is set, ROM bootloader will revoke the public key digest burned in efuse block
|
|
if it fails to verify the signature of software bootloader with it.
|
|
Revocation of keys does not happen when enabling secure boot. Once secure boot is enabled,
|
|
key revocation checks will be done on subsequent boot-up, while verifying the software bootloader
|
|
|
|
This feature provides a strong resistance against physical attacks on the device.
|
|
|
|
NOTE: Once a digest slot is revoked, it can never be used again to verify an image
|
|
This can lead to permanent bricking of the device, in case all keys are revoked
|
|
because of signature verification failure.
|
|
|
|
choice SECURE_BOOTLOADER_KEY_ENCODING
|
|
bool "Hardware Key Encoding"
|
|
depends on SECURE_BOOTLOADER_REFLASHABLE
|
|
default SECURE_BOOTLOADER_KEY_ENCODING_256BIT
|
|
help
|
|
|
|
In reflashable secure bootloader mode, a hardware key is derived from the signing key (with SHA-256) and
|
|
can be written to eFuse with espefuse.py.
|
|
|
|
Normally this is a 256-bit key, but if 3/4 Coding Scheme is used on the device then the eFuse key is
|
|
truncated to 192 bits.
|
|
|
|
This configuration item doesn't change any firmware code, it only changes the size of key binary which is
|
|
generated at build time.
|
|
|
|
config SECURE_BOOTLOADER_KEY_ENCODING_256BIT
|
|
bool "No encoding (256 bit key)"
|
|
|
|
config SECURE_BOOTLOADER_KEY_ENCODING_192BIT
|
|
bool "3/4 encoding (192 bit key)"
|
|
|
|
endchoice
|
|
|
|
config SECURE_BOOT_INSECURE
|
|
bool "Allow potentially insecure options"
|
|
depends on SECURE_BOOT
|
|
default N
|
|
help
|
|
You can disable some of the default protections offered by secure boot, in order to enable testing or a
|
|
custom combination of security features.
|
|
|
|
Only enable these options if you are very sure.
|
|
|
|
Refer to the Secure Boot section of the ESP-IDF Programmer's Guide for this version before enabling.
|
|
|
|
config SECURE_FLASH_ENC_ENABLED
|
|
bool "Enable flash encryption on boot (READ DOCS FIRST)"
|
|
default N
|
|
select SPI_FLASH_ENABLE_ENCRYPTED_READ_WRITE
|
|
help
|
|
If this option is set, flash contents will be encrypted by the bootloader on first boot.
|
|
|
|
Note: After first boot, the system will be permanently encrypted. Re-flashing an encrypted
|
|
system is complicated and not always possible.
|
|
|
|
Read https://docs.espressif.com/projects/esp-idf/en/latest/security/flash-encryption.html
|
|
before enabling.
|
|
|
|
choice SECURE_FLASH_ENCRYPTION_KEYSIZE
|
|
bool "Size of generated AES-XTS key"
|
|
default SECURE_FLASH_ENCRYPTION_AES128
|
|
depends on SOC_FLASH_ENCRYPTION_XTS_AES_OPTIONS && SECURE_FLASH_ENC_ENABLED
|
|
help
|
|
Size of generated AES-XTS key.
|
|
|
|
- AES-128 uses a 256-bit key (32 bytes) derived from 128 bits (16 bytes) burned in half Efuse key block.
|
|
Internally, it calculates SHA256(128 bits)
|
|
- AES-128 uses a 256-bit key (32 bytes) which occupies one Efuse key block.
|
|
- AES-256 uses a 512-bit key (64 bytes) which occupies two Efuse key blocks.
|
|
|
|
This setting is ignored if either type of key is already burned to Efuse before the first boot.
|
|
In this case, the pre-burned key is used and no new key is generated.
|
|
|
|
config SECURE_FLASH_ENCRYPTION_AES128_DERIVED
|
|
bool "AES-128 key derived from 128 bits (SHA256(128 bits))"
|
|
depends on SOC_FLASH_ENCRYPTION_XTS_AES_128_DERIVED
|
|
|
|
config SECURE_FLASH_ENCRYPTION_AES128
|
|
bool "AES-128 (256-bit key)"
|
|
depends on SOC_FLASH_ENCRYPTION_XTS_AES_128 && !(IDF_TARGET_ESP32C2 && SECURE_BOOT)
|
|
|
|
config SECURE_FLASH_ENCRYPTION_AES256
|
|
bool "AES-256 (512-bit key)"
|
|
depends on SOC_FLASH_ENCRYPTION_XTS_AES_256
|
|
endchoice
|
|
|
|
choice SECURE_FLASH_ENCRYPTION_MODE
|
|
bool "Enable usage mode"
|
|
depends on SECURE_FLASH_ENC_ENABLED
|
|
default SECURE_FLASH_ENCRYPTION_MODE_DEVELOPMENT
|
|
help
|
|
By default Development mode is enabled which allows ROM download mode to perform flash encryption
|
|
operations (plaintext is sent to the device, and it encrypts it internally and writes ciphertext
|
|
to flash.) This mode is not secure, it's possible for an attacker to write their own chosen plaintext
|
|
to flash.
|
|
|
|
Release mode should always be selected for production or manufacturing. Once enabled it's no longer
|
|
possible for the device in ROM Download Mode to use the flash encryption hardware.
|
|
|
|
Refer to the Flash Encryption section of the ESP-IDF Programmer's Guide for details.
|
|
|
|
config SECURE_FLASH_ENCRYPTION_MODE_DEVELOPMENT
|
|
bool "Development (NOT SECURE)"
|
|
select SECURE_FLASH_UART_BOOTLOADER_ALLOW_ENC
|
|
|
|
config SECURE_FLASH_ENCRYPTION_MODE_RELEASE
|
|
bool "Release"
|
|
select PARTITION_TABLE_MD5 if !APP_COMPATIBLE_PRE_V3_1_BOOTLOADERS
|
|
|
|
endchoice
|
|
|
|
menu "Potentially insecure options"
|
|
visible if SECURE_FLASH_ENCRYPTION_MODE_DEVELOPMENT || SECURE_BOOT_INSECURE || SECURE_SIGNED_ON_UPDATE_NO_SECURE_BOOT # NOERROR
|
|
|
|
# NOTE: Options in this menu NEED to have SECURE_BOOT_INSECURE
|
|
# and/or SECURE_FLASH_ENCRYPTION_MODE_DEVELOPMENT in "depends on", as the menu
|
|
# itself doesn't enable/disable its children (if it's not set,
|
|
# it's possible for the insecure menu to be disabled but the insecure option
|
|
# to remain on which is very bad.)
|
|
|
|
config SECURE_BOOT_ALLOW_ROM_BASIC
|
|
bool "Leave ROM BASIC Interpreter available on reset"
|
|
depends on (SECURE_BOOT_INSECURE || SECURE_FLASH_ENCRYPTION_MODE_DEVELOPMENT) && IDF_TARGET_ESP32
|
|
default N
|
|
help
|
|
By default, the BASIC ROM Console starts on reset if no valid bootloader is
|
|
read from the flash.
|
|
|
|
When either flash encryption or secure boot are enabled, the default is to
|
|
disable this BASIC fallback mode permanently via eFuse.
|
|
|
|
If this option is set, this eFuse is not burned and the BASIC ROM Console may
|
|
remain accessible. Only set this option in testing environments.
|
|
|
|
config SECURE_BOOT_ALLOW_JTAG
|
|
bool "Allow JTAG Debugging"
|
|
depends on SECURE_BOOT_INSECURE || SECURE_FLASH_ENCRYPTION_MODE_DEVELOPMENT
|
|
default N
|
|
help
|
|
If not set (default), the bootloader will permanently disable JTAG (across entire chip) on first boot
|
|
when either secure boot or flash encryption is enabled.
|
|
|
|
Setting this option leaves JTAG on for debugging, which negates all protections of flash encryption
|
|
and some of the protections of secure boot.
|
|
|
|
Only set this option in testing environments.
|
|
|
|
config SECURE_BOOT_ALLOW_SHORT_APP_PARTITION
|
|
bool "Allow app partition length not 64KB aligned"
|
|
depends on SECURE_BOOT_INSECURE || SECURE_SIGNED_ON_UPDATE_NO_SECURE_BOOT
|
|
help
|
|
If not set (default), app partition size must be a multiple of 64KB. App images are padded to 64KB
|
|
length, and the bootloader checks any trailing bytes after the signature (before the next 64KB
|
|
boundary) have not been written. This is because flash cache maps entire 64KB pages into the address
|
|
space. This prevents an attacker from appending unverified data after the app image in the flash,
|
|
causing it to be mapped into the address space.
|
|
|
|
Setting this option allows the app partition length to be unaligned, and disables padding of the app
|
|
image to this length. It is generally not recommended to set this option, unless you have a legacy
|
|
partitioning scheme which doesn't support 64KB aligned partition lengths.
|
|
|
|
config SECURE_BOOT_V2_ALLOW_EFUSE_RD_DIS
|
|
bool "Allow additional read protecting of efuses"
|
|
depends on SECURE_BOOT_INSECURE && SECURE_BOOT_V2_ENABLED
|
|
help
|
|
If not set (default, recommended), on first boot the bootloader will burn the WR_DIS_RD_DIS
|
|
efuse when Secure Boot is enabled. This prevents any more efuses from being read protected.
|
|
|
|
If this option is set, it will remain possible to write the EFUSE_RD_DIS efuse field after Secure
|
|
Boot is enabled. This may allow an attacker to read-protect the BLK2 efuse (for ESP32) and
|
|
BLOCK4-BLOCK10 (i.e. BLOCK_KEY0-BLOCK_KEY5)(for other chips) holding the public key digest, causing an
|
|
immediate denial of service and possibly allowing an additional fault injection attack to
|
|
bypass the signature protection.
|
|
|
|
NOTE: Once a BLOCK is read-protected, the application will read all zeros from that block
|
|
|
|
NOTE: If "UART ROM download mode (Permanently disabled (recommended))" or
|
|
"UART ROM download mode (Permanently switch to Secure mode (recommended))" is set,
|
|
then it is __NOT__ possible to read/write efuses using espefuse.py utility.
|
|
However, efuse can be read/written from the application
|
|
|
|
config SECURE_BOOT_ALLOW_UNUSED_DIGEST_SLOTS
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|
bool "Leave unused digest slots available (not revoke)"
|
|
depends on SECURE_BOOT_INSECURE && SOC_EFUSE_REVOKE_BOOT_KEY_DIGESTS
|
|
default N
|
|
help
|
|
If not set (default), during startup in the app all unused digest slots will be revoked.
|
|
To revoke unused slot will be called esp_efuse_set_digest_revoke(num_digest) for each digest.
|
|
Revoking unused digest slots makes ensures that no trusted keys can be added later by an attacker.
|
|
If set, it means that you have a plan to use unused digests slots later.
|
|
|
|
config SECURE_FLASH_UART_BOOTLOADER_ALLOW_ENC
|
|
bool "Leave UART bootloader encryption enabled"
|
|
depends on SECURE_FLASH_ENCRYPTION_MODE_DEVELOPMENT
|
|
default N
|
|
help
|
|
If not set (default), the bootloader will permanently disable UART bootloader encryption access on
|
|
first boot. If set, the UART bootloader will still be able to access hardware encryption.
|
|
|
|
It is recommended to only set this option in testing environments.
|
|
|
|
config SECURE_FLASH_UART_BOOTLOADER_ALLOW_DEC
|
|
bool "Leave UART bootloader decryption enabled"
|
|
depends on SECURE_FLASH_ENCRYPTION_MODE_DEVELOPMENT && IDF_TARGET_ESP32
|
|
default N
|
|
help
|
|
If not set (default), the bootloader will permanently disable UART bootloader decryption access on
|
|
first boot. If set, the UART bootloader will still be able to access hardware decryption.
|
|
|
|
Only set this option in testing environments. Setting this option allows complete bypass of flash
|
|
encryption.
|
|
|
|
config SECURE_FLASH_UART_BOOTLOADER_ALLOW_CACHE
|
|
bool "Leave UART bootloader flash cache enabled"
|
|
depends on SECURE_FLASH_ENCRYPTION_MODE_DEVELOPMENT
|
|
default N
|
|
help
|
|
If not set (default), the bootloader will permanently disable UART bootloader flash cache access on
|
|
first boot. If set, the UART bootloader will still be able to access the flash cache.
|
|
|
|
Only set this option in testing environments.
|
|
|
|
config SECURE_FLASH_REQUIRE_ALREADY_ENABLED
|
|
bool "Require flash encryption to be already enabled"
|
|
depends on SECURE_FLASH_ENCRYPTION_MODE_DEVELOPMENT
|
|
default N
|
|
help
|
|
If not set (default), and flash encryption is not yet enabled in eFuses, the 2nd stage bootloader
|
|
will enable flash encryption: generate the flash encryption key and program eFuses.
|
|
If this option is set, and flash encryption is not yet enabled, the bootloader will error out and
|
|
reboot.
|
|
If flash encryption is enabled in eFuses, this option does not change the bootloader behavior.
|
|
|
|
Only use this option in testing environments, to avoid accidentally enabling flash encryption on
|
|
the wrong device. The device needs to have flash encryption already enabled using espefuse.py.
|
|
|
|
endmenu # Potentially Insecure
|
|
|
|
config SECURE_FLASH_CHECK_ENC_EN_IN_APP
|
|
bool "Check Flash Encryption enabled on app startup"
|
|
depends on SECURE_FLASH_ENC_ENABLED
|
|
default y
|
|
help
|
|
If set (default), in an app during startup code,
|
|
there is a check of the flash encryption eFuse bit is on
|
|
(as the bootloader should already have set it).
|
|
The app requires this bit is on to continue work otherwise abort.
|
|
|
|
If not set, the app does not care if the flash encryption eFuse bit is set or not.
|
|
|
|
config SECURE_ROM_DL_MODE_ENABLED
|
|
bool
|
|
default y if SOC_SUPPORTS_SECURE_DL_MODE && !SECURE_FLASH_ENCRYPTION_MODE_DEVELOPMENT
|
|
|
|
choice SECURE_UART_ROM_DL_MODE
|
|
bool "UART ROM download mode"
|
|
default SECURE_ENABLE_SECURE_ROM_DL_MODE if SECURE_ROM_DL_MODE_ENABLED # NOERROR
|
|
default SECURE_INSECURE_ALLOW_DL_MODE
|
|
depends on SECURE_BOOT_V2_ENABLED || SECURE_FLASH_ENC_ENABLED
|
|
depends on !IDF_TARGET_ESP32 || ESP32_REV_MIN_3
|
|
|
|
config SECURE_DISABLE_ROM_DL_MODE
|
|
bool "UART ROM download mode (Permanently disabled (recommended))"
|
|
help
|
|
If set, during startup the app will burn an eFuse bit to permanently disable the UART ROM
|
|
Download Mode. This prevents any future use of esptool.py, espefuse.py and similar tools.
|
|
|
|
Once disabled, if the SoC is booted with strapping pins set for ROM Download Mode
|
|
then an error is printed instead.
|
|
|
|
It is recommended to enable this option in any production application where Flash
|
|
Encryption and/or Secure Boot is enabled and access to Download Mode is not required.
|
|
|
|
It is also possible to permanently disable Download Mode by calling
|
|
esp_efuse_disable_rom_download_mode() at runtime.
|
|
|
|
config SECURE_ENABLE_SECURE_ROM_DL_MODE
|
|
bool "UART ROM download mode (Permanently switch to Secure mode (recommended))"
|
|
depends on SOC_SUPPORTS_SECURE_DL_MODE
|
|
select ESPTOOLPY_NO_STUB
|
|
help
|
|
If set, during startup the app will burn an eFuse bit to permanently switch the UART ROM
|
|
Download Mode into a separate Secure Download mode. This option can only work if
|
|
Download Mode is not already disabled by eFuse.
|
|
|
|
Secure Download mode limits the use of Download Mode functions to simple flash read,
|
|
write and erase operations, plus a command to return a summary of currently enabled
|
|
security features.
|
|
|
|
Secure Download mode is not compatible with the esptool.py flasher stub feature,
|
|
espefuse.py, read/writing memory or registers, encrypted download, or any other
|
|
features that interact with unsupported Download Mode commands.
|
|
|
|
Secure Download mode should be enabled in any application where Flash Encryption
|
|
and/or Secure Boot is enabled. Disabling this option does not immediately cancel
|
|
the benefits of the security features, but it increases the potential "attack
|
|
surface" for an attacker to try and bypass them with a successful physical attack.
|
|
|
|
It is also possible to enable secure download mode at runtime by calling
|
|
esp_efuse_enable_rom_secure_download_mode()
|
|
|
|
Note: Secure Download mode is not available for ESP32 (includes revisions till ECO3).
|
|
|
|
config SECURE_INSECURE_ALLOW_DL_MODE
|
|
bool "UART ROM download mode (Enabled (not recommended))"
|
|
help
|
|
This is a potentially insecure option.
|
|
Enabling this option will allow the full UART download mode to stay enabled.
|
|
This option SHOULD NOT BE ENABLED for production use cases.
|
|
endchoice
|
|
endmenu # Security features
|