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c99c5d13e6
Make AMPDU Block Ack Window configurable in menuconfig because we need to configure it in some special cases, such as iperf test etc
748 lines
27 KiB
Plaintext
748 lines
27 KiB
Plaintext
menu "ESP32-specific"
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choice ESP32_DEFAULT_CPU_FREQ_MHZ
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prompt "CPU frequency"
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default ESP32_DEFAULT_CPU_FREQ_160
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help
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CPU frequency to be set on application startup.
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config ESP32_DEFAULT_CPU_FREQ_80
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bool "80 MHz"
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config ESP32_DEFAULT_CPU_FREQ_160
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bool "160 MHz"
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config ESP32_DEFAULT_CPU_FREQ_240
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bool "240 MHz"
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endchoice
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config ESP32_DEFAULT_CPU_FREQ_MHZ
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int
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default 80 if ESP32_DEFAULT_CPU_FREQ_80
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default 160 if ESP32_DEFAULT_CPU_FREQ_160
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default 240 if ESP32_DEFAULT_CPU_FREQ_240
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config MEMMAP_SMP
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bool "Reserve memory for two cores"
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default "y"
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help
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The ESP32 contains two cores. If you plan to only use one, you can disable this item
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to save some memory. (ToDo: Make this automatically depend on unicore support)
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config MEMMAP_TRACEMEM
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bool
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default "n"
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config MEMMAP_TRACEMEM_TWOBANKS
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bool
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default "n"
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config ESP32_TRAX
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bool "Use TRAX tracing feature"
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default "n"
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select MEMMAP_TRACEMEM
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help
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The ESP32 contains a feature which allows you to trace the execution path the processor
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has taken through the program. This is stored in a chunk of 32K (16K for single-processor)
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of memory that can't be used for general purposes anymore. Disable this if you do not know
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what this is.
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config ESP32_TRAX_TWOBANKS
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bool "Reserve memory for tracing both pro as well as app cpu execution"
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default "n"
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depends on ESP32_TRAX && MEMMAP_SMP
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select MEMMAP_TRACEMEM_TWOBANKS
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help
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The ESP32 contains a feature which allows you to trace the execution path the processor
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has taken through the program. This is stored in a chunk of 32K (16K for single-processor)
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of memory that can't be used for general purposes anymore. Disable this if you do not know
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what this is.
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# Memory to reverse for trace, used in linker script
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config TRACEMEM_RESERVE_DRAM
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hex
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default 0x8000 if MEMMAP_TRACEMEM && MEMMAP_TRACEMEM_TWOBANKS
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default 0x4000 if MEMMAP_TRACEMEM && !MEMMAP_TRACEMEM_TWOBANKS
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default 0x0
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choice ESP32_COREDUMP_TO_FLASH_OR_UART
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prompt "Core dump destination"
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default ESP32_ENABLE_COREDUMP_TO_NONE
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help
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Select place to store core dump: flash, uart or none (to disable core dumps generation).
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If core dump is configured to be stored in flash and custom partition table is used add
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corresponding entry to your CSV. For examples, please see predefined partition table CSV descriptions
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in the components/partition_table directory.
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config ESP32_ENABLE_COREDUMP_TO_FLASH
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bool "Flash"
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select ESP32_ENABLE_COREDUMP
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config ESP32_ENABLE_COREDUMP_TO_UART
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bool "UART"
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select ESP32_ENABLE_COREDUMP
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config ESP32_ENABLE_COREDUMP_TO_NONE
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bool "None"
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endchoice
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config ESP32_ENABLE_COREDUMP
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bool
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default F
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help
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Enables/disable core dump module.
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config ESP32_CORE_DUMP_UART_DELAY
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int "Core dump print to UART delay"
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depends on ESP32_ENABLE_COREDUMP_TO_UART
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default 0
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help
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Config delay (in ms) before printing core dump to UART.
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Delay can be interrupted by pressing Enter key.
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config ESP32_CORE_DUMP_LOG_LEVEL
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int "Core dump module logging level"
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depends on ESP32_ENABLE_COREDUMP
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default 1
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help
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Config core dump module logging level (0-5).
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# Not implemented and/or needs new silicon rev to work
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config MEMMAP_SPISRAM
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bool "Use external SPI SRAM chip as main memory"
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depends on ESP32_NEEDS_NEW_SILICON_REV
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default "n"
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help
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The ESP32 can control an external SPI SRAM chip, adding the memory it contains to the
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main memory map. Enable this if you have this hardware and want to use it in the same
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way as on-chip RAM.
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choice NUMBER_OF_UNIVERSAL_MAC_ADDRESS
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bool "Number of universally administered (by IEEE) MAC address"
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default FOUR_UNIVERSAL_MAC_ADDRESS
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help
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Configure the number of universally administered (by IEEE) MAC addresses.
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During initialisation, MAC addresses for each network interface are generated or derived from a
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single base MAC address.
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If the number of universal MAC addresses is four, all four interfaces (WiFi station, WiFi softap,
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Bluetooth and Ethernet) receive a universally administered MAC address. These are generated
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sequentially by adding 0, 1, 2 and 3 (respectively) to the final octet of the base MAC address.
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If the number of universal MAC addresses is two, only two interfaces (WiFi station and Bluetooth)
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receive a universally administered MAC address. These are generated sequentially by adding 0
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and 1 (respectively) to the base MAC address. The remaining two interfaces (WiFi softap and Ethernet)
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receive local MAC addresses. These are derived from the universal WiFi station and Bluetooth MAC
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addresses, respectively.
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When using the default (Espressif-assigned) base MAC address, either setting can be used. When using
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a custom universal MAC address range, the correct setting will depend on the allocation of MAC
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addresses in this range (either 2 or 4 per device.)
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config TWO_UNIVERSAL_MAC_ADDRESS
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bool "Two"
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config FOUR_UNIVERSAL_MAC_ADDRESS
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bool "Four"
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endchoice
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config NUMBER_OF_UNIVERSAL_MAC_ADDRESS
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int
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default 2 if TWO_UNIVERSAL_MAC_ADDRESS
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default 4 if FOUR_UNIVERSAL_MAC_ADDRESS
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config SYSTEM_EVENT_QUEUE_SIZE
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int "System event queue size"
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default 32
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help
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Config system event queue size in different application.
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config SYSTEM_EVENT_TASK_STACK_SIZE
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int "Event loop task stack size"
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default 4096
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help
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Config system event task stack size in different application.
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config MAIN_TASK_STACK_SIZE
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int "Main task stack size"
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default 4096
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help
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Configure the "main task" stack size. This is the stack of the task
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which calls app_main(). If app_main() returns then this task is deleted
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and its stack memory is freed.
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config IPC_TASK_STACK_SIZE
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int "Inter-Processor Call (IPC) task stack size"
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default 1024
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range 512 65536 if !ESP32_APPTRACE_ENABLE
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range 2048 65536 if ESP32_APPTRACE_ENABLE
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help
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Configure the IPC tasks stack size. One IPC task runs on each core
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(in dual core mode), and allows for cross-core function calls.
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See IPC documentation for more details.
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The default stack size should be enough for most common use cases.
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It can be shrunk if you are sure that you do not use any custom
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IPC functionality.
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config NEWLIB_STDOUT_ADDCR
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bool "Standard-out output adds carriage return before newline"
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default y
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help
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Most people are used to end their printf strings with a newline. If this
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is sent as is to the serial port, most terminal programs will only move the
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cursor one line down, not also move it to the beginning of the line. This
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is usually done by an added CR character. Enabling this will make the
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standard output code automatically add a CR character before a LF.
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With this option enabled, C standard library functions which read from UART
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(like scanf) will convert "\r\n" character sequences back to "\n".
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This option doesn't affect behavior of the UART driver (drivers/uart.h).
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config NEWLIB_NANO_FORMAT
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bool "Enable 'nano' formatting options for printf/scanf family"
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default n
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help
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ESP32 ROM contains parts of newlib C library, including printf/scanf family
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of functions. These functions have been compiled with so-called "nano"
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formatting option. This option doesn't support 64-bit integer formats and C99
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features, such as positional arguments.
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For more details about "nano" formatting option, please see newlib readme file,
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search for '--enable-newlib-nano-formatted-io':
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https://sourceware.org/newlib/README
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If this option is enabled, build system will use functions available in
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ROM, reducing the application binary size. Functions available in ROM run
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faster than functions which run from flash. Functions available in ROM can
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also run when flash instruction cache is disabled.
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If you need 64-bit integer formatting support or C99 features, keep this
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option disabled.
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choice CONSOLE_UART
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prompt "UART for console output"
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default CONSOLE_UART_DEFAULT
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help
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Select whether to use UART for console output (through stdout and stderr).
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- Default is to use UART0 on pins GPIO1(TX) and GPIO3(RX).
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- If "Custom" is selected, UART0 or UART1 can be chosen,
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and any pins can be selected.
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- If "None" is selected, there will be no console output on any UART, except
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for initial output from ROM bootloader. This output can be further suppressed by
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bootstrapping GPIO13 pin to low logic level.
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config CONSOLE_UART_DEFAULT
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bool "Default: UART0, TX=GPIO1, RX=GPIO3"
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config CONSOLE_UART_CUSTOM
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bool "Custom"
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config CONSOLE_UART_NONE
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bool "None"
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endchoice
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choice CONSOLE_UART_NUM
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prompt "UART peripheral to use for console output (0-1)"
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depends on CONSOLE_UART_CUSTOM
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default CONSOLE_UART_CUSTOM_NUM_0
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help
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Due of a ROM bug, UART2 is not supported for console output
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via ets_printf.
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config CONSOLE_UART_CUSTOM_NUM_0
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bool "UART0"
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config CONSOLE_UART_CUSTOM_NUM_1
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bool "UART1"
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endchoice
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config CONSOLE_UART_NUM
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int
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default 0 if CONSOLE_UART_DEFAULT || CONSOLE_UART_NONE
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default 0 if CONSOLE_UART_CUSTOM_NUM_0
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default 1 if CONSOLE_UART_CUSTOM_NUM_1
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config CONSOLE_UART_TX_GPIO
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int "UART TX on GPIO#"
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depends on CONSOLE_UART_CUSTOM
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range 0 33
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default 19
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config CONSOLE_UART_RX_GPIO
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int "UART RX on GPIO#"
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depends on CONSOLE_UART_CUSTOM
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range 0 39
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default 21
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config CONSOLE_UART_BAUDRATE
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int "UART console baud rate"
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depends on !CONSOLE_UART_NONE
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default 115200
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range 1200 4000000
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config ULP_COPROC_ENABLED
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bool "Enable Ultra Low Power (ULP) Coprocessor"
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default "n"
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help
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Set to 'y' if you plan to load a firmware for the coprocessor.
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If this option is enabled, further coprocessor configuration will appear in the Components menu.
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config ULP_COPROC_RESERVE_MEM
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int "RTC slow memory reserved for coprocessor"
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default 512
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range 32 8192
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depends on ULP_COPROC_ENABLED
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help
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Bytes of memory to reserve for ULP coprocessor firmware & data.
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Data is reserved at the beginning of RTC slow memory.
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# Set CONFIG_ULP_COPROC_RESERVE_MEM to 0 if ULP is disabled
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config ULP_COPROC_RESERVE_MEM
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int
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default 0
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depends on !ULP_COPROC_ENABLED
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choice ESP32_PANIC
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prompt "Panic handler behaviour"
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default ESP32_PANIC_PRINT_REBOOT
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help
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If FreeRTOS detects unexpected behaviour or an unhandled exception, the panic handler is
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invoked. Configure the panic handlers action here.
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config ESP32_PANIC_PRINT_HALT
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bool "Print registers and halt"
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help
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Outputs the relevant registers over the serial port and halt the
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processor. Needs a manual reset to restart.
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config ESP32_PANIC_PRINT_REBOOT
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bool "Print registers and reboot"
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help
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Outputs the relevant registers over the serial port and immediately
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reset the processor.
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config ESP32_PANIC_SILENT_REBOOT
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bool "Silent reboot"
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help
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Just resets the processor without outputting anything
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config ESP32_PANIC_GDBSTUB
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bool "Invoke GDBStub"
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help
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Invoke gdbstub on the serial port, allowing for gdb to attach to it to do a postmortem
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of the crash.
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endchoice
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config ESP32_DEBUG_OCDAWARE
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bool "Make exception and panic handlers JTAG/OCD aware"
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default y
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help
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The FreeRTOS panic and unhandled exception handers can detect a JTAG OCD debugger and
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instead of panicking, have the debugger stop on the offending instruction.
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config INT_WDT
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bool "Interrupt watchdog"
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default y
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help
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This watchdog timer can detect if the FreeRTOS tick interrupt has not been called for a certain time,
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either because a task turned off interrupts and did not turn them on for a long time, or because an
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interrupt handler did not return. It will try to invoke the panic handler first and failing that
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reset the SoC.
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config INT_WDT_TIMEOUT_MS
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int "Interrupt watchdog timeout (ms)"
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depends on INT_WDT
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default 300
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range 10 10000
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help
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The timeout of the watchdog, in miliseconds. Make this higher than the FreeRTOS tick rate.
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config INT_WDT_CHECK_CPU1
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bool "Also watch CPU1 tick interrupt"
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depends on INT_WDT && !FREERTOS_UNICORE
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default y
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help
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Also detect if interrupts on CPU 1 are disabled for too long.
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config TASK_WDT
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bool "Task watchdog"
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default y
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help
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This watchdog timer can be used to make sure individual tasks are still running.
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config TASK_WDT_PANIC
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bool "Invoke panic handler when Task Watchdog is triggered"
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depends on TASK_WDT
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default n
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help
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Normally, the Task Watchdog will only print out a warning if it detects it has not
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been fed. If this is enabled, it will invoke the panic handler instead, which
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can then halt or reboot the chip.
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config TASK_WDT_TIMEOUT_S
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int "Task watchdog timeout (seconds)"
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depends on TASK_WDT
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range 1 60
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default 5
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help
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Timeout for the task WDT, in seconds.
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config TASK_WDT_CHECK_IDLE_TASK
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bool "Task watchdog watches CPU0 idle task"
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depends on TASK_WDT
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default y
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help
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With this turned on, the task WDT can detect if the idle task is not called within the task
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watchdog timeout period. The idle task not being called usually is a symptom of another
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task hoarding the CPU. It is also a bad thing because FreeRTOS household tasks depend on the
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idle task getting some runtime every now and then. Take Care: With this disabled, this
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watchdog will trigger if no tasks register themselves within the timeout value.
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config TASK_WDT_CHECK_IDLE_TASK_CPU1
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bool "Task watchdog also watches CPU1 idle task"
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depends on TASK_WDT_CHECK_IDLE_TASK && !FREERTOS_UNICORE
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default y
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help
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Also check the idle task that runs on CPU1.
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#The brownout detector code is disabled (by making it depend on a nonexisting symbol) because the current revision of ESP32
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#silicon has a bug in the brown-out detector, rendering it unusable for resetting the CPU.
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config BROWNOUT_DET
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bool "Hardware brownout detect & reset"
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default y
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help
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The ESP32 has a built-in brownout detector which can detect if the voltage is lower than
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a specific value. If this happens, it will reset the chip in order to prevent unintended
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behaviour.
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choice BROWNOUT_DET_LVL_SEL
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prompt "Brownout voltage level"
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depends on BROWNOUT_DET
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default BROWNOUT_DET_LVL_SEL_25
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help
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The brownout detector will reset the chip when the supply voltage is below this level.
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#The voltage levels here are estimates, more work needs to be done to figure out the exact voltages
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#of the brownout threshold levels.
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config BROWNOUT_DET_LVL_SEL_0
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bool "2.1V"
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config BROWNOUT_DET_LVL_SEL_1
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bool "2.2V"
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config BROWNOUT_DET_LVL_SEL_2
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bool "2.3V"
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config BROWNOUT_DET_LVL_SEL_3
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bool "2.4V"
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config BROWNOUT_DET_LVL_SEL_4
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bool "2.5V"
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config BROWNOUT_DET_LVL_SEL_5
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bool "2.6V"
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config BROWNOUT_DET_LVL_SEL_6
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bool "2.7V"
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config BROWNOUT_DET_LVL_SEL_7
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bool "2.8V"
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endchoice
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config BROWNOUT_DET_LVL
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int
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default 0 if BROWNOUT_DET_LVL_SEL_0
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default 1 if BROWNOUT_DET_LVL_SEL_1
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default 2 if BROWNOUT_DET_LVL_SEL_2
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default 3 if BROWNOUT_DET_LVL_SEL_3
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default 4 if BROWNOUT_DET_LVL_SEL_4
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default 5 if BROWNOUT_DET_LVL_SEL_5
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default 6 if BROWNOUT_DET_LVL_SEL_6
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default 7 if BROWNOUT_DET_LVL_SEL_7
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choice ESP32_TIME_SYSCALL
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prompt "Timers used for gettimeofday function"
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default ESP32_TIME_SYSCALL_USE_RTC_FRC1
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help
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This setting defines which hardware timers are used to
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implement 'gettimeofday' and 'time' functions in C library.
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- If only FRC1 timer is used, gettimeofday will provide time at
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microsecond resolution. Time will not be preserved when going
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into deep sleep mode.
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- If both FRC1 and RTC timers are used, timekeeping will
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continue in deep sleep. Time will be reported at 1 microsecond
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resolution.
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- If only RTC timer is used, timekeeping will continue in
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deep sleep, but time will be measured at 6.(6) microsecond
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resolution. Also the gettimeofday function itself may take
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longer to run.
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- If no timers are used, gettimeofday and time functions
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return -1 and set errno to ENOSYS.
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- When RTC is used for timekeeping, two RTC_STORE registers are
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used to keep time in deep sleep mode.
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config ESP32_TIME_SYSCALL_USE_RTC
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bool "RTC"
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config ESP32_TIME_SYSCALL_USE_RTC_FRC1
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bool "RTC and FRC1"
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config ESP32_TIME_SYSCALL_USE_FRC1
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bool "FRC1"
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config ESP32_TIME_SYSCALL_USE_NONE
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bool "None"
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endchoice
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choice ESP32_RTC_CLOCK_SOURCE
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prompt "RTC clock source"
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default ESP32_RTC_CLOCK_SOURCE_INTERNAL_RC
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help
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Choose which clock is used as RTC clock source.
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config ESP32_RTC_CLOCK_SOURCE_INTERNAL_RC
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bool "Internal 150kHz RC oscillator"
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config ESP32_RTC_CLOCK_SOURCE_EXTERNAL_CRYSTAL
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bool "External 32kHz crystal"
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endchoice
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|
config ESP32_RTC_CLK_CAL_CYCLES
|
|
int "Number of cycles for RTC_SLOW_CLK calibration"
|
|
default 1024
|
|
range 0 125000
|
|
help
|
|
When the startup code initializes RTC_SLOW_CLK, it can perform
|
|
calibration by comparing the RTC_SLOW_CLK frequency with main XTAL
|
|
frequency. This option sets the number of RTC_SLOW_CLK cycles measured
|
|
by the calibration routine. Higher numbers increase calibration
|
|
precision, which may be important for applications which spend a lot of
|
|
time in deep sleep. Lower numbers reduce startup time.
|
|
|
|
When this option is set to 0, clock calibration will not be performed at
|
|
startup, and approximate clock frequencies will be assumed:
|
|
- 150000 Hz if internal RC oscillator is used as clock source
|
|
- 32768 Hz if the 32k crystal oscillator is used
|
|
|
|
config ESP32_DEEP_SLEEP_WAKEUP_DELAY
|
|
int "Extra delay in deep sleep wake stub (in us)"
|
|
default 2000
|
|
range 0 5000
|
|
help
|
|
When ESP32 exits deep sleep, the CPU and the flash chip are powered on
|
|
at the same time. CPU will run deep sleep stub first, and then
|
|
proceed to load 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.
|
|
|
|
By 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, try increasing this value.
|
|
|
|
choice ESP32_XTAL_FREQ_SEL
|
|
prompt "Main XTAL frequency"
|
|
default ESP32_XTAL_FREQ_AUTO
|
|
help
|
|
ESP32 currently supports the following XTAL frequencies:
|
|
- 26 MHz
|
|
- 40 MHz
|
|
Startup code can automatically estimate XTAL frequency. This feature
|
|
uses the internal 8MHz oscillator as a reference. Because the internal
|
|
oscillator frequency is temperature dependent, it is not recommended
|
|
to use automatic XTAL frequency detection in applications which need
|
|
to work at high ambient temperatures and use high-temperature
|
|
qualified chips and modules.
|
|
config ESP32_XTAL_FREQ_40
|
|
bool "40 MHz"
|
|
config ESP32_XTAL_FREQ_26
|
|
bool "26 MHz"
|
|
config ESP32_XTAL_FREQ_AUTO
|
|
bool "Autodetect"
|
|
endchoice
|
|
|
|
# Keep these values in sync with rtc_xtal_freq_t enum in soc/rtc.h
|
|
config ESP32_XTAL_FREQ
|
|
int
|
|
default 0 if ESP32_XTAL_FREQ_AUTO
|
|
default 40 if ESP32_XTAL_FREQ_40
|
|
default 26 if ESP32_XTAL_FREQ_26
|
|
|
|
endmenu
|
|
|
|
menuconfig WIFI_ENABLED
|
|
bool "WiFi"
|
|
default y
|
|
help
|
|
Select this option to enable WiFi stack and show the submenu with WiFi configuration choices.
|
|
|
|
config SW_COEXIST_ENABLE
|
|
bool "Software controls WiFi/Bluetooth coexistence"
|
|
depends on WIFI_ENABLED && BT_ENABLED
|
|
default n
|
|
help
|
|
If enabled, WiFi & Bluetooth coexistence is controlled by software rather than hardware.
|
|
Recommended for heavy traffic scenarios. Both coexistence configuration options are
|
|
automatically managed, no user intervention is required.
|
|
|
|
|
|
config ESP32_WIFI_STATIC_RX_BUFFER_NUM
|
|
int "Max number of WiFi static RX buffers"
|
|
depends on WIFI_ENABLED
|
|
range 2 25
|
|
default 10
|
|
help
|
|
Set the number of WiFi static rx buffers. Each buffer takes approximately 1.6KB of RAM.
|
|
The static rx buffers are allocated when esp_wifi_init is called, they are not freed
|
|
until esp_wifi_deinit is called.
|
|
WiFi hardware use these buffers to receive packets, generally larger number for higher
|
|
throughput but more memory, smaller number for lower throughput but less memory.
|
|
|
|
config ESP32_WIFI_DYNAMIC_RX_BUFFER_NUM
|
|
int "Max number of WiFi dynamic RX buffers"
|
|
depends on WIFI_ENABLED
|
|
range 0 128
|
|
default 32
|
|
help
|
|
Set the number of WiFi dynamic rx buffers, 0 means no limitation for dynamic rx buffer
|
|
allocation. The size of dynamic rx buffers is not fixed.
|
|
For each received packet in static rx buffers, WiFi driver makes a copy
|
|
to dynamic rx buffers and then deliver it to high layer stack. The dynamic rx buffer
|
|
is freed when the application, such as socket, successfully received the packet.
|
|
For some applications, the WiFi driver receiving speed is faster than application
|
|
consuming speed, we may run out of memory if no limitation for the dynamic rx buffer
|
|
number. Generally the number of dynamic rx buffer should be no less than static
|
|
rx buffer number if it is not 0.
|
|
|
|
choice ESP32_WIFI_TX_BUFFER
|
|
prompt "Type of WiFi TX buffers"
|
|
depends on WIFI_ENABLED
|
|
default ESP32_WIFI_DYNAMIC_TX_BUFFER
|
|
help
|
|
Select type of WiFi tx buffers and show the submenu with the number of WiFi tx buffers choice.
|
|
If "STATIC" is selected, WiFi tx buffers are allocated when WiFi is initialized and released
|
|
when WiFi is de-initialized. If "DYNAMIC" is selected, WiFi tx buffer is allocated when tx
|
|
data is delivered from LWIP to WiFi and released when tx data is sent out by WiFi.
|
|
The size of each static tx buffers is fixed to about 1.6KB and the size of dynamic tx buffers is
|
|
depend on the length of the data delivered from LWIP.
|
|
If PSRAM is enabled, "STATIC" should be selected to guarantee enough WiFi tx buffers.
|
|
If PSRAM is disabled, "DYNAMIC" should be selected to improve the utilization of RAM.
|
|
|
|
config ESP32_WIFI_STATIC_TX_BUFFER
|
|
bool "STATIC"
|
|
config ESP32_WIFI_DYNAMIC_TX_BUFFER
|
|
bool "DYNAMIC"
|
|
endchoice
|
|
|
|
config ESP32_WIFI_TX_BUFFER_TYPE
|
|
int
|
|
depends on WIFI_ENABLED
|
|
default 0 if ESP32_WIFI_STATIC_TX_BUFFER
|
|
default 1 if ESP32_WIFI_DYNAMIC_TX_BUFFER
|
|
|
|
config ESP32_WIFI_STATIC_TX_BUFFER_NUM
|
|
int "Max number of WiFi static TX buffers"
|
|
depends on WIFI_ENABLED
|
|
depends on ESP32_WIFI_STATIC_TX_BUFFER
|
|
range 16 64
|
|
default 32
|
|
help
|
|
Set the number of WiFi static tx buffers. Each buffer takes approximately 1.6KB of RAM.
|
|
The static rx buffers are allocated when esp_wifi_init is called, they are not released
|
|
until esp_wifi_deinit is called.
|
|
For each tx packet from high layer stack, WiFi driver make a copy of it. For some applications,
|
|
especially the UDP application, the high layer deliver speed is faster than the WiFi tx
|
|
speed, we may run out of static tx buffers.
|
|
|
|
config ESP32_WIFI_DYNAMIC_TX_BUFFER_NUM
|
|
int "Max number of WiFi dynamic TX buffers"
|
|
depends on WIFI_ENABLED
|
|
depends on ESP32_WIFI_DYNAMIC_TX_BUFFER
|
|
range 16 64
|
|
default 32
|
|
help
|
|
Set the number of WiFi dynamic tx buffers, 0 means no limitation for dynamic tx buffer
|
|
allocation. The size of dynamic tx buffers is not fixed.
|
|
For each tx packet from high layer stack, WiFi driver make a copy of it. For some applications,
|
|
especially the UDP application, the high layer deliver speed is faster than the WiFi tx
|
|
speed, we may run out of memory if no limitation for the dynamic tx buffer number.
|
|
|
|
config ESP32_WIFI_AMPDU_ENABLED
|
|
bool "WiFi AMPDU"
|
|
depends on WIFI_ENABLED
|
|
default y
|
|
help
|
|
Select this option to enable AMPDU feature
|
|
|
|
|
|
config ESP32_WIFI_TX_BA_WIN
|
|
int "WiFi AMPDU TX BA window size"
|
|
depends on ESP32_WIFI_AMPDU_ENABLED
|
|
range 2 32
|
|
default 6
|
|
help
|
|
Set the size of WiFi Block Ack TX window. Generally a bigger value means higher throughput but
|
|
more memory. Most of time we should NOT change the default value unless special reason, e.g.
|
|
test the maximum UDP TX throughput with iperf etc. For iperf test in shieldbox, the recommended
|
|
value is 9~12.
|
|
|
|
config ESP32_WIFI_RX_BA_WIN
|
|
int "WiFi AMPDU RX BA window size"
|
|
depends on ESP32_WIFI_AMPDU_ENABLED
|
|
range 2 32
|
|
default 6
|
|
help
|
|
Set the size of WiFi Block Ack RX window. Generally a bigger value means higher throughput but
|
|
more memory. Most of time we should NOT change the default value unless special reason, e.g.
|
|
test the maximum UDP RX throughput with iperf etc. For iperf test in shieldbox, the recommended
|
|
value is 9~12.
|
|
|
|
config ESP32_WIFI_NVS_ENABLED
|
|
bool "WiFi NVS flash"
|
|
depends on WIFI_ENABLED
|
|
default y
|
|
help
|
|
Select this option to enable WiFi NVS flash
|
|
|
|
config PHY_ENABLED
|
|
bool
|
|
default y if WIFI_ENABLED || BT_ENABLED
|
|
|
|
menu PHY
|
|
visible if PHY_ENABLED
|
|
|
|
config ESP32_PHY_CALIBRATION_AND_DATA_STORAGE
|
|
bool "Do phy calibration and store calibration data in NVS"
|
|
depends on PHY_ENABLED
|
|
default y
|
|
help
|
|
If this option is enabled, NVS will be initialized and calibration data will be loaded from there.
|
|
PHY calibration will be skipped on deep sleep wakeup. If calibration data is not found, full calibration
|
|
will be performed and stored in NVS. In all other cases, only partial calibration will be performed.
|
|
|
|
If unsure, choose 'y'.
|
|
|
|
config ESP32_PHY_INIT_DATA_IN_PARTITION
|
|
bool "Use a partition to store PHY init data"
|
|
depends on PHY_ENABLED
|
|
default n
|
|
help
|
|
If enabled, PHY init data will be loaded from a partition.
|
|
When using a custom partition table, make sure that PHY data
|
|
partition is included (type: 'data', subtype: 'phy').
|
|
With default partition tables, this is done automatically.
|
|
If PHY init data is stored in a partition, it has to be flashed there,
|
|
otherwise runtime error will occur.
|
|
|
|
If this option is not enabled, PHY init data will be embedded
|
|
into the application binary.
|
|
|
|
If unsure, choose 'n'.
|
|
|
|
config ESP32_PHY_MAX_WIFI_TX_POWER
|
|
int "Max WiFi TX power (dBm)"
|
|
range 0 20
|
|
default 20
|
|
depends on PHY_ENABLED && WIFI_ENABLED
|
|
help
|
|
Set maximum transmit power for WiFi radio. Actual transmit power for high
|
|
data rates may be lower than this setting.
|
|
|
|
config ESP32_PHY_MAX_TX_POWER
|
|
int
|
|
depends on PHY_ENABLED
|
|
default 20 if !WIFI_ENABLED
|
|
default ESP32_PHY_MAX_WIFI_TX_POWER if WIFI_ENABLED
|
|
|
|
endmenu
|