c40bbc5c42
Fixes regression in 3fe0022ef
775 lines
28 KiB
Text
775 lines
28 KiB
Text
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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choice ESP32_APPTRACE_DESTINATION
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prompt "AppTrace: destination"
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default ESP32_APPTRACE_DEST_NONE
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help
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Select destination for application trace: trace memory, uart or none (to disable).
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config ESP32_APPTRACE_DEST_TRAX
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bool "Trace memory"
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select ESP32_APPTRACE_ENABLE
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config ESP32_APPTRACE_DEST_UART
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bool "UART"
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select ESP32_APPTRACE_ENABLE
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config ESP32_APPTRACE_DEST_NONE
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bool "None"
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endchoice
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config ESP32_APPTRACE_ENABLE
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bool
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depends on !ESP32_TRAX
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select MEMMAP_TRACEMEM
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select MEMMAP_TRACEMEM_TWOBANKS
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default F
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help
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Enables/disable application tracing module.
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config ESP32_APPTRACE_ONPANIC_HOST_FLUSH_TMO
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int "AppTrace: Timeout for flushing last trace data to host on panic"
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depends on ESP32_APPTRACE_ENABLE
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default 4294967295
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help
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Timeout for flushing last trace data to host in case of panic. In us.
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config ESP32_APPTRACE_ONPANIC_HOST_FLUSH_TRAX_THRESH
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int "AppTrace: Threshold for flushing last trace data to host on panic"
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depends on ESP32_APPTRACE_DEST_TRAX
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default 50
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help
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Threshold for flushing last trace data to host on panic. In percents of TRAX memory block length.
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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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depends on NEEDS_ESP32_NEW_SILICON_REV
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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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config BROWNOUT_DET_RESETDELAY
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int "Brownout reset delay (in uS)"
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depends on BROWNOUT_DET
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range 0 6820
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default 1000
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help
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The brownout detector can reset the chip after a certain delay, in order to make sure e.g. a voltage dip has entirely passed
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before trying to restart the chip. You can set the delay here.
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choice ESP32_TIME_SYSCALL
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|
prompt "Timers used for gettimeofday function"
|
|
default ESP32_TIME_SYSCALL_USE_RTC_FRC1
|
|
help
|
|
This setting defines which hardware timers are used to
|
|
implement 'gettimeofday' and 'time' functions in C library.
|
|
|
|
- If only FRC1 timer is used, gettimeofday will provide time at
|
|
microsecond resolution. Time will not be preserved when going
|
|
into deep sleep mode.
|
|
- If both FRC1 and RTC timers are used, timekeeping will
|
|
continue in deep sleep. Time will be reported at 1 microsecond
|
|
resolution.
|
|
- If only RTC timer is used, timekeeping will continue in
|
|
deep sleep, but time will be measured at 6.(6) microsecond
|
|
resolution. Also the gettimeofday function itself may take
|
|
longer to run.
|
|
- If no timers are used, gettimeofday and time functions
|
|
return -1 and set errno to ENOSYS.
|
|
- When RTC is used for timekeeping, two RTC_STORE registers are
|
|
used to keep time in deep sleep mode.
|
|
|
|
config ESP32_TIME_SYSCALL_USE_RTC
|
|
bool "RTC"
|
|
config ESP32_TIME_SYSCALL_USE_RTC_FRC1
|
|
bool "RTC and FRC1"
|
|
config ESP32_TIME_SYSCALL_USE_FRC1
|
|
bool "FRC1"
|
|
config ESP32_TIME_SYSCALL_USE_NONE
|
|
bool "None"
|
|
endchoice
|
|
|
|
choice ESP32_RTC_CLOCK_SOURCE
|
|
prompt "RTC clock source"
|
|
default ESP32_RTC_CLOCK_SOURCE_INTERNAL_RC
|
|
help
|
|
Choose which clock is used as RTC clock source.
|
|
|
|
config ESP32_RTC_CLOCK_SOURCE_INTERNAL_RC
|
|
bool "Internal 150kHz RC oscillator"
|
|
config ESP32_RTC_CLOCK_SOURCE_EXTERNAL_CRYSTAL
|
|
bool "External 32kHz crystal"
|
|
endchoice
|
|
|
|
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_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
|