335 lines
8.9 KiB
Plaintext
335 lines
8.9 KiB
Plaintext
#
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# For a description of the syntax of this configuration file,
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# see the file kconfig-language.txt in the NuttX tools repository.
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#
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if ARCH_XTENSA
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choice
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prompt "XTENSA architecture selection"
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default ARCH_CHIP_ESP32
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config ARCH_CHIP_ESP32
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bool "Espressif ESP32"
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select ARCH_FAMILY_LX6
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select XTENSA_HAVE_INTERRUPTS
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select ARCH_HAVE_BOOTLOADER
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select ARCH_HAVE_FPU
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select ARCH_HAVE_MPU
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select ARCH_HAVE_MULTICPU
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select ARCH_HAVE_RESET
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select ARCH_HAVE_TESTSET
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select ARCH_HAVE_TEXT_HEAP
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select ARCH_VECNOTIRQ
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select LIBC_PREVENT_STRING_KERNEL
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select LIBC_ARCH_ATOMIC
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select LIBC_ARCH_MEMCPY if BUILD_FLAT
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select LIBC_ARCH_MEMCHR if BUILD_FLAT
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select LIBC_ARCH_MEMCMP if BUILD_FLAT
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select LIBC_ARCH_MEMMOVE if BUILD_FLAT
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select LIBC_ARCH_MEMSET if BUILD_FLAT
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select LIBC_ARCH_STRCHR if BUILD_FLAT
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select LIBC_ARCH_STRCMP if BUILD_FLAT
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select LIBC_ARCH_STRCPY if BUILD_FLAT
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select LIBC_ARCH_STRLCPY if BUILD_FLAT
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select LIBC_ARCH_STRNCPY if BUILD_FLAT
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select LIBC_ARCH_STRLEN if BUILD_FLAT
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select LIBC_ARCH_STRNLEN if BUILD_FLAT
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---help---
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The ESP32 is a dual-core system from Espressif with two Harvard
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architecture Xtensa LX6 CPUs. All embedded memory, external memory
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and peripherals are located on the data bus and/or the instruction
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bus of these CPUs. With some minor exceptions, the address mapping
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of two CPUs is symmetric, meaning they use the same addresses to
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access the same memory.
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The two CPUs are named "PRO_CPU" and "APP_CPU" (for "protocol" and
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"application"), however for most purposes the two CPUs are
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interchangeable.
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config ARCH_CHIP_ESP32S2
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bool "Espressif ESP32-S2"
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select ARCH_FAMILY_LX7
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select XTENSA_HAVE_INTERRUPTS
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select ARCH_HAVE_BOOTLOADER
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select ARCH_HAVE_RESET
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select ARCH_VECNOTIRQ
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select LIBC_ARCH_ATOMIC
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select LIBC_ARCH_MEMCPY
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select LIBC_ARCH_MEMCHR
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select LIBC_ARCH_MEMCMP
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select LIBC_ARCH_MEMMOVE
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select LIBC_ARCH_MEMSET
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select LIBC_ARCH_STRCHR
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select LIBC_ARCH_STRCMP
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select LIBC_ARCH_STRCPY
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select LIBC_ARCH_STRLCPY
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select LIBC_ARCH_STRNCPY
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select LIBC_ARCH_STRLEN
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select LIBC_ARCH_STRNLEN
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---help---
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ESP32-S2 is a truly secure, highly integrated, low-power, 2.4 GHz Wi-Fi
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Microcontroller SoC supporting Wi-Fi HT40 and having 43 GPIOs.
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Based on an Xtensa single-core 32-bit LX7 processor, it can be clocked
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at up to 240 MHz.
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config ARCH_CHIP_ESP32S3
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bool "Espressif ESP32-S3"
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select ARCH_FAMILY_LX7
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select XTENSA_HAVE_INTERRUPTS
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select ARCH_HAVE_BOOTLOADER
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select ARCH_HAVE_FPU
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select ARCH_HAVE_MPU
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select ARCH_HAVE_MULTICPU
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select ARCH_HAVE_RESET
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select ARCH_HAVE_TESTSET
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select ARCH_VECNOTIRQ
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select LIBC_PREVENT_STRING_KERNEL
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select LIBC_ARCH_MEMCPY if BUILD_FLAT
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select LIBC_ARCH_MEMCHR if BUILD_FLAT
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select LIBC_ARCH_MEMCMP if BUILD_FLAT
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select LIBC_ARCH_MEMMOVE if BUILD_FLAT
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select LIBC_ARCH_MEMSET if BUILD_FLAT
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select LIBC_ARCH_STRCHR if BUILD_FLAT
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select LIBC_ARCH_STRCMP if BUILD_FLAT
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select LIBC_ARCH_STRCPY if BUILD_FLAT
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select LIBC_ARCH_STRLCPY if BUILD_FLAT
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select LIBC_ARCH_STRNCPY if BUILD_FLAT
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select LIBC_ARCH_STRLEN if BUILD_FLAT
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select LIBC_ARCH_STRNLEN if BUILD_FLAT
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---help---
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ESP32-S3 is a dual-core Xtensa LX7 MCU, capable of running at 240 MHz.
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Apart from its 512 KB of internal SRAM, it also comes with integrated 2.4 GHz,
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802.11 b/g/n Wi-Fi and Bluetooth 5 (LE) connectivity that provides long-range
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support.
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config ARCH_CHIP_XTENSA_CUSTOM
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bool "Custom XTENSA chip"
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select ARCH_CHIP_CUSTOM
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---help---
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Select this option if there is no directory for the chip under arch/xtensa/src/.
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endchoice # XTENSA chip selection
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config XTENSA_HAVE_ICACHE
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bool
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default n
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config XTENSA_HAVE_DCACHE
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bool
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default n
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config XTENSA_HAVE_ICACHE_LOCK
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bool
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default n
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config XTENSA_HAVE_DCACHE_LOCK
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bool
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default n
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config XTENSA_HAVE_GENERAL_EXCEPTION_HOOKS
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bool
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default n
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config XTENSA_HAVE_WINDOW_EXCEPTION_HOOKS
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bool
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default n
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config XTENSA_ICACHE
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bool "Use I-Cache"
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default n
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depends on XTENSA_HAVE_ICACHE
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select ARCH_ICACHE
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---help---
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Enable Xtensa I-Cache
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config XTENSA_DCACHE
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bool "Use D-Cache"
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default n
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depends on XTENSA_HAVE_DCACHE
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select ARCH_DCACHE
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---help---
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Enable Xtensa D-Cache
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config XTENSA_ICACHE_LOCK
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bool "Use I-Cache lock & unlock feature"
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default n
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depends on XTENSA_HAVE_ICACHE
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depends on XTENSA_HAVE_ICACHE_LOCK
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select ARCH_ICACHE_LOCK
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---help---
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Enable Xtensa I-Cache lock & unlock feature
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config XTENSA_DCACHE_LOCK
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bool "Use D-Cache lock & unlock feature"
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default n
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depends on XTENSA_HAVE_DCACHE
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depends on XTENSA_HAVE_DCACHE_LOCK
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select ARCH_DCACHE_LOCK
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---help---
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Enable Xtensa D-Cache lock & unlock feature
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config XTENSA_ONESHOT
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bool "Xtensa oneshot lower half driver"
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default n
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depends on ONESHOT
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---help---
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Enable Xtensa oneshot driver.
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config ARCH_FAMILY_LX6
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bool
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default n
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---help---
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Cadence® Tensilica® Xtensa® LX6 data plane processing unit (DPU).
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The LX6 is a configurable and extensible processor core.
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config ARCH_FAMILY_LX7
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bool
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default n
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---help---
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Cadence® Tensilica® Xtensa® LX7 data plane processing unit (DPU).
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The LX7 is a configurable and extensible processor core.
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config ARCH_CHIP
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string
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default "esp32" if ARCH_CHIP_ESP32
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default "esp32s2" if ARCH_CHIP_ESP32S2
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default "esp32s3" if ARCH_CHIP_ESP32S3
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config XTENSA_CP_LAZY
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bool "Lazy co-processor state restoration"
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default n
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depends on EXPERIMENTAL
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---help---
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NuttX logic saves and restores the co-processor enabled (CPENABLE)
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register on each context switch. This has disadvantages in that (1)
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co-processor context will be saved and restored even if the co-
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processor was never used, and (2) tasks must explicitly enable and
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disable co-processors.
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An alternative, "lazy" co-processor state restore is enabled with
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this option. That logic works like as follows:
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a. CPENABLE is set to zero on each context switch, disabling all co-
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processors.
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b. If/when the task attempts to use the disabled co-processor, an
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exception occurs
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c. The co-processor exception handler re-enables the co-processor.
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config XTENSA_USE_OVLY
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bool
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default n
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---help---
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Enable code overlay support. This option is currently unsupported.
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config XTENSA_CP_INITSET
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hex "Default co-processor enables"
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default 0x0001
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range 0 0xffff
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depends on !XTENSA_CP_LAZY
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---help---
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Co-processors may be enabled on a thread by calling xtensa_coproc_enable()
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and disabled by calling xtensa_coproc_disable(). Some co-processors
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should be enabled on all threads by default. That set of co-processors
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is provided by CONFIG_XTENSA_CP_INITSET. Each bit corresponds to one
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coprocessor with the same bit layout as for the CPENABLE register.
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config XTENSA_DUMPBT_ON_ASSERT
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bool "Dump backtrace on assertions"
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default y
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depends on DEBUG_ALERT
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---help---
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Enable a backtrace dump on assertions.
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config XTENSA_BTDEPTH
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int "Backtrace depth"
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default 50
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depends on XTENSA_DUMPBT_ON_ASSERT
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---help---
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This is the depth of the backtrace.
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config XTENSA_INTBACKTRACE
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bool "Full backtrace from interrupts"
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default n
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depends on XTENSA_DUMPBT_ON_ASSERT
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---help---
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Add necessary logic to be able to have a full backtrace from an interrupt context.
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config XTENSA_IMEM_USE_SEPARATE_HEAP
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bool "Use a separate heap for internal memory"
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select ARCH_HAVE_EXTRA_HEAPS
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default n
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---help---
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This is a separate internal heap that's used by drivers when certain operations
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are not possible with the provided buffer(s).
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Mainly, when the provided buffer comes from external RAM and a DMA or flash
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operation is going to be performed.
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This separate heap will be part of the internal DRAM.
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config XTENSA_IMEM_REGION_SIZE
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hex "DRAM region size for internal use"
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depends on XTENSA_IMEM_USE_SEPARATE_HEAP
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default 0x18000
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config XTENSA_EXTMEM_BSS
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bool "Allow BSS section in external memory"
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default n
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---help---
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Adds a section and an attribute that allows to force variables into
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the external memory.
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config XTENSA_SEMIHOSTING_HOSTFS
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bool "Semihosting HostFS"
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depends on FS_HOSTFS
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---help---
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Mount HostFS through semihosting.
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This doesn't support some directory operations like readdir because
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of the limitations of semihosting mechanism.
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if XTENSA_SEMIHOSTING_HOSTFS
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config XTENSA_SEMIHOSTING_HOSTFS_CACHE_COHERENCE
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bool "Cache coherence in semihosting hostfs"
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depends on ARCH_DCACHE
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---help---
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Flush & Invalidte cache before & after sim call.
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endif
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choice
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prompt "Toolchain Selection"
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default XTENSA_TOOLCHAIN_ESP
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config XTENSA_TOOLCHAIN_XCC
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bool "Xtensa Toolchain use GCC as front end"
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select ARCH_TOOLCHAIN_GNU
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config XTENSA_TOOLCHAIN_XCLANG
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bool "Xtensa Toolchain use CLANG as front end"
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select ARCH_TOOLCHAIN_CLANG
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config XTENSA_TOOLCHAIN_ESP
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bool "ESP toolchain for xtensa"
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select ARCH_TOOLCHAIN_GNU
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endchoice
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source "arch/xtensa/src/lx6/Kconfig"
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if ARCH_CHIP_ESP32
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source "arch/xtensa/src/esp32/Kconfig"
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endif
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source "arch/xtensa/src/lx7/Kconfig"
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if ARCH_CHIP_ESP32S2
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source "arch/xtensa/src/esp32s2/Kconfig"
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endif
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if ARCH_CHIP_ESP32S3
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source "arch/xtensa/src/esp32s3/Kconfig"
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endif
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endif # ARCH_XTENSA
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