539 lines
16 KiB
Plaintext
539 lines
16 KiB
Plaintext
# General architecture configuration options
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# Copyright (c) 2014-2015 Wind River Systems, Inc.
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# Copyright (c) 2015 Intel Corporation
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# Copyright (c) 2016 Cadence Design Systems, Inc.
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# SPDX-License-Identifier: Apache-2.0
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# Include these first so that any properties (e.g. defaults) below can be
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# overridden (by defining symbols in multiple locations)
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# Note: $ARCH might be a glob pattern
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source "$(ARCH_DIR)/$(ARCH)/Kconfig"
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choice ARCH_CHOICE
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prompt "Architecture"
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default X86
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config ARC
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bool "ARC architecture"
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select HAS_DTS
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config ARM
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bool "ARM architecture"
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select HAS_DTS
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config X86
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bool "x86 architecture"
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select ATOMIC_OPERATIONS_BUILTIN
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select HAS_DTS
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config NIOS2
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bool "Nios II Gen 2 architecture"
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select ATOMIC_OPERATIONS_C
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select HAS_DTS
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config RISCV
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bool "RISCV architecture"
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select HAS_DTS
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config XTENSA
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bool "Xtensa architecture"
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select HAS_DTS
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select USE_SWITCH
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select USE_SWITCH_SUPPORTED
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select XTENSA_HAL if "$(ZEPHYR_TOOLCHAIN_VARIANT)" != "xcc"
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config ARCH_POSIX
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bool "POSIX (native) architecture"
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select ATOMIC_OPERATIONS_BUILTIN
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select ARCH_HAS_CUSTOM_SWAP_TO_MAIN
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select ARCH_HAS_CUSTOM_BUSY_WAIT
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select ARCH_HAS_THREAD_ABORT
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select NATIVE_APPLICATION
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select HAS_COVERAGE_SUPPORT
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endchoice
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menu "General Architecture Options"
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module = ARCH
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module-str = arch
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source "subsys/logging/Kconfig.template.log_config"
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module = MPU
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module-str = mpu
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source "subsys/logging/Kconfig.template.log_config"
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config BIG_ENDIAN
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bool
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help
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This option tells the build system that the target system is big-endian.
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Little-endian architecture is the default and should leave this option
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unselected. This option is selected by arch/$ARCH/Kconfig,
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soc/**/Kconfig, or boards/**/Kconfig and the user should generally avoid
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modifying it. The option is used to select linker script OUTPUT_FORMAT
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and command line option for gen_isr_tables.py.
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config 64BIT
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bool
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help
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This option tells the build system that the target system is
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using a 64-bit address space, meaning that pointer and long types
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are 64 bits wide. This option is selected by arch/$ARCH/Kconfig,
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soc/**/Kconfig, or boards/**/Kconfig and the user should generally
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avoid modifying it.
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if ARC || ARM || NIOS2 || X86
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# Workaround for not being able to have commas in macro arguments
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DT_CHOSEN_Z_SRAM := zephyr,sram
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config SRAM_SIZE
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int "SRAM Size in kB"
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default $(dt_chosen_reg_size_int,$(DT_CHOSEN_Z_SRAM),0,K)
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help
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This option specifies the size of the SRAM in kB. It is normally set by
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the board's defconfig file and the user should generally avoid modifying
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it via the menu configuration.
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config SRAM_BASE_ADDRESS
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hex "SRAM Base Address"
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default $(dt_chosen_reg_addr_hex,$(DT_CHOSEN_Z_SRAM))
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help
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This option specifies the base address of the SRAM on the board. It is
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normally set by the board's defconfig file and the user should generally
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avoid modifying it via the menu configuration.
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# Workaround for not being able to have commas in macro arguments
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DT_CHOSEN_Z_FLASH := zephyr,flash
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config FLASH_SIZE
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int "Flash Size in kB"
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default $(dt_chosen_reg_size_int,$(DT_CHOSEN_Z_FLASH),0,K) if (XIP && ARM) || !ARM
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help
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This option specifies the size of the flash in kB. It is normally set by
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the board's defconfig file and the user should generally avoid modifying
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it via the menu configuration.
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config FLASH_BASE_ADDRESS
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hex "Flash Base Address"
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default $(dt_chosen_reg_addr_hex,$(DT_CHOSEN_Z_FLASH)) if (XIP && ARM) || !ARM
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help
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This option specifies the base address of the flash on the board. It is
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normally set by the board's defconfig file and the user should generally
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avoid modifying it via the menu configuration.
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endif # ARM || ARC || NIOS2 || X86
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if ARCH_HAS_TRUSTED_EXECUTION
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config TRUSTED_EXECUTION_SECURE
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bool "Trusted Execution: Secure firmware image"
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help
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Select this option to enable building a Secure firmware
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image for a platform that supports Trusted Execution. A
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Secure firmware image will execute in Secure state. It may
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allow the CPU to execute in Non-Secure (Normal) state.
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Therefore, a Secure firmware image shall be able to
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configure security attributions of CPU resources (memory
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areas, peripherals, interrupts, etc.) as well as to handle
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faults, related to security violations. It may optionally
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allow certain functions to be called from the Non-Secure
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(Normal) domain.
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config TRUSTED_EXECUTION_NONSECURE
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depends on !TRUSTED_EXECUTION_SECURE
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bool "Trusted Execution: Non-Secure firmware image"
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help
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Select this option to enable building a Non-Secure
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firmware image for a platform that supports Trusted
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Execution. A Non-Secure firmware image will execute
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in Non-Secure (Normal) state. Therefore, it shall not
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access CPU resources (memory areas, peripherals,
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interrupts etc.) belonging to the Secure domain.
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endif # ARCH_HAS_TRUSTED_EXECUTION
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config HW_STACK_PROTECTION
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bool "Hardware Stack Protection"
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depends on ARCH_HAS_STACK_PROTECTION
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help
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Select this option to enable hardware-based platform features to
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catch stack overflows when the system is running in privileged
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mode. If CONFIG_USERSPACE is not enabled, the system is always
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running in privileged mode.
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Note that this does not necessarily prevent corruption and assertions
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about the overall system state when a fault is triggered cannot be
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made.
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config USERSPACE
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bool "User mode threads"
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depends on ARCH_HAS_USERSPACE
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help
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When enabled, threads may be created or dropped down to user mode,
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which has significantly restricted permissions and must interact
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with the kernel via system calls. See Zephyr documentation for more
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details about this feature.
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If a user thread overflows its stack, this will be caught and the
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kernel itself will be shielded from harm. Enabling this option
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may or may not catch stack overflows when the system is in
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privileged mode or handling a system call; to ensure these are always
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caught, enable CONFIG_HW_STACK_PROTECTION.
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config PRIVILEGED_STACK_SIZE
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int "Size of privileged stack"
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default 1024
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depends on ARCH_HAS_USERSPACE
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help
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This option sets the privileged stack region size that will be used
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in addition to the user mode thread stack. During normal execution,
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this region will be inaccessible from user mode. During system calls,
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this region will be utilized by the system call.
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config PRIVILEGED_STACK_TEXT_AREA
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int "Privileged stacks text area"
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default 512 if COVERAGE_GCOV
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default 256
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depends on ARCH_HAS_USERSPACE
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help
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Stack text area size for privileged stacks.
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config KOBJECT_TEXT_AREA
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int "Size if kobject text area"
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default 512 if COVERAGE_GCOV
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default 512 if NO_OPTIMIZATIONS
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default 256
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depends on ARCH_HAS_USERSPACE
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help
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Size of kernel object text area. Used in linker script.
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config STACK_GROWS_UP
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bool "Stack grows towards higher memory addresses"
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help
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Select this option if the architecture has upward growing thread
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stacks. This is not common.
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config MAX_THREAD_BYTES
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int "Bytes to use when tracking object thread permissions"
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default 2
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depends on USERSPACE
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help
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Every kernel object will have an associated bitfield to store
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thread permissions for that object. This controls the size of the
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bitfield (in bytes) and imposes a limit on how many threads can
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be created in the system.
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config DYNAMIC_OBJECTS
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bool "Allow kernel objects to be allocated at runtime"
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depends on USERSPACE
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help
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Enabling this option allows for kernel objects to be requested from
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the calling thread's resource pool, at a slight cost in performance
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due to the supplemental run-time tables required to validate such
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objects.
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Objects allocated in this way can be freed with a supervisor-only
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API call, or when the number of references to that object drops to
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zero.
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if ARCH_HAS_NOCACHE_MEMORY_SUPPORT
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config NOCACHE_MEMORY
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bool "Support for uncached memory"
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help
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Add a "nocache" read-write memory section that is configured to
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not be cached. This memory section can be used to perform DMA
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transfers when cache coherence issues are not optimal or can not
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be solved using cache maintenance operations.
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endif # ARCH_HAS_NOCACHE_MEMORY_SUPPORT
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menu "Interrupt Configuration"
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#
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# Interrupt related configs
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#
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config DYNAMIC_INTERRUPTS
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bool "Enable installation of IRQs at runtime"
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help
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Enable installation of interrupts at runtime, which will move some
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interrupt-related data structures to RAM instead of ROM, and
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on some architectures increase code size.
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config GEN_ISR_TABLES
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bool "Use generated IRQ tables"
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help
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This option controls whether a platform uses the gen_isr_tables
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script to generate its interrupt tables. This mechanism will create
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an appropriate hardware vector table and/or software IRQ table.
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config GEN_IRQ_VECTOR_TABLE
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bool "Generate an interrupt vector table"
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default y
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depends on GEN_ISR_TABLES
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help
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This option controls whether a platform using gen_isr_tables
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needs an interrupt vector table created. Only disable this if the
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platform does not use a vector table at all, or requires the vector
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table to be in a format that is not an array of function pointers
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indexed by IRQ line. In the latter case, the vector table must be
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supplied by the application or architecture code.
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config GEN_SW_ISR_TABLE
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bool "Generate a software ISR table"
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default y
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depends on GEN_ISR_TABLES
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help
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This option controls whether a platform using gen_isr_tables
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needs a software ISR table table created. This is an array of struct
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_isr_table_entry containing the interrupt service routine and supplied
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parameter.
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config ARCH_SW_ISR_TABLE_ALIGN
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int "Alignment size of a software ISR table"
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default 0
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depends on GEN_SW_ISR_TABLE
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help
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This option controls alignment size of generated
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_sw_isr_table. Some architecture needs a software ISR table
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to be aligned to architecture specific size. The default
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size is 0 for no alignment.
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config GEN_IRQ_START_VECTOR
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int
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default 0
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depends on GEN_ISR_TABLES
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help
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On some architectures, part of the vector table may be reserved for
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system exceptions and is declared separately from the tables
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created by gen_isr_tables.py. When creating these tables, this value
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will be subtracted from CONFIG_NUM_IRQS to properly size them.
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This is a hidden option which needs to be set per architecture and
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left alone.
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config IRQ_OFFLOAD
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bool "Enable IRQ offload"
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depends on TEST
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help
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Enable irq_offload() API which allows functions to be synchronously
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run in interrupt context. Only useful for test cases that need
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to validate the correctness of kernel objects in IRQ context.
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endmenu # Interrupt configuration
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endmenu
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#
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# Architecture Capabilities
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#
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config ARCH_HAS_TRUSTED_EXECUTION
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bool
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config ARCH_HAS_STACK_PROTECTION
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bool
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config ARCH_HAS_USERSPACE
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bool
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config ARCH_HAS_EXECUTABLE_PAGE_BIT
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bool
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config ARCH_HAS_NOCACHE_MEMORY_SUPPORT
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bool
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config ARCH_HAS_RAMFUNC_SUPPORT
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bool
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config ARCH_HAS_NESTED_EXCEPTION_DETECTION
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bool
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#
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# Other architecture related options
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#
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config ARCH_HAS_THREAD_ABORT
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bool
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#
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# Hidden PM feature configs which are to be selected by
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# individual SoC.
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#
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config HAS_SYS_POWER_STATE_SLEEP_1
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# Hidden
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bool
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help
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This option signifies that the target supports the SYS_POWER_STATE_SLEEP_1
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configuration option.
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config HAS_SYS_POWER_STATE_SLEEP_2
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# Hidden
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bool
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help
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This option signifies that the target supports the SYS_POWER_STATE_SLEEP_2
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configuration option.
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config HAS_SYS_POWER_STATE_SLEEP_3
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# Hidden
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bool
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help
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This option signifies that the target supports the SYS_POWER_STATE_SLEEP_3
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configuration option.
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config HAS_SYS_POWER_STATE_DEEP_SLEEP_1
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# Hidden
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bool
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help
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This option signifies that the target supports the SYS_POWER_STATE_DEEP_SLEEP_1
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configuration option.
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config HAS_SYS_POWER_STATE_DEEP_SLEEP_2
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# Hidden
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bool
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help
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This option signifies that the target supports the SYS_POWER_STATE_DEEP_SLEEP_2
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configuration option.
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config HAS_SYS_POWER_STATE_DEEP_SLEEP_3
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# Hidden
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bool
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help
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This option signifies that the target supports the SYS_POWER_STATE_DEEP_SLEEP_3
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configuration option.
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config BOOTLOADER_CONTEXT_RESTORE_SUPPORTED
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# Hidden
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bool
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help
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This option signifies that the target has options of bootloaders
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that support context restore upon resume from deep sleep
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# End hidden CPU family configs
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#
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config CPU_HAS_TEE
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bool
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help
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This option is enabled when the CPU has support for Trusted
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Execution Environment (e.g. when it has a security attribution
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unit).
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config CPU_HAS_FPU
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bool
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help
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This option is enabled when the CPU has hardware floating point
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unit.
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config CPU_HAS_MPU
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bool
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help
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This option is enabled when the CPU has a Memory Protection Unit (MPU).
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config MEMORY_PROTECTION
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bool
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help
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This option is enabled when Memory Protection features are supported.
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Memory protection support is currently available on ARC, ARM, and x86
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architectures.
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config MPU_REQUIRES_POWER_OF_TWO_ALIGNMENT
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bool
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help
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This option is enabled when the MPU requires a power of two alignment
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and size for MPU regions.
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config MPU_REQUIRES_NON_OVERLAPPING_REGIONS
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bool
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help
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This option is enabled when the MPU requires the active (i.e. enabled)
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MPU regions to be non-overlapping with each other.
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config MPU_GAP_FILLING
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bool "Force MPU to be filling in background memory regions"
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depends on MPU_REQUIRES_NON_OVERLAPPING_REGIONS
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default y if !USERSPACE
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help
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This Kconfig option instructs the MPU driver to enforce
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a full kernel SRAM partitioning, when it programs the
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dynamic MPU regions (user thread stack, PRIV stack guard
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and application memory domains) during context-switch. We
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allow this to be a configurable option, in order to be able
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to switch the option off and have an increased number of MPU
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regions available for application memory domain programming.
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Notes:
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An increased number of MPU regions should only be required,
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when building with USERSPACE support. As a result, when we
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build without USERSPACE support, gap filling should always
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be required.
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When the option is switched off, access to memory areas not
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covered by explicit MPU regions is restricted to privileged
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code on an ARCH-specific basis. Refer to ARCH-specific
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documentation for more information on how this option is
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used.
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menuconfig FLOAT
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bool "Floating point"
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depends on CPU_HAS_FPU
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depends on ARM || X86 || ARC
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help
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This option allows threads to use the floating point registers.
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By default, only a single thread may use the registers.
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Disabling this option means that any thread that uses a
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floating point register will get a fatal exception.
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if FLOAT
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config FP_SHARING
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bool "Floating point register sharing"
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help
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This option allows multiple threads to use the floating point
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registers.
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endif # FLOAT
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#
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# End hidden PM feature configs
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#
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config ARCH
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string
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help
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System architecture string.
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config SOC
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string
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help
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SoC name which can be found under soc/<arch>/<soc name>.
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This option holds the directory name used by the build system to locate
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the correct linker and header files for the SoC.
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config SOC_SERIES
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string
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help
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SoC series name which can be found under soc/<arch>/<family>/<series>.
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This option holds the directory name used by the build system to locate
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the correct linker and header files.
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config SOC_FAMILY
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string
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help
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SoC family name which can be found under soc/<arch>/<family>.
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This option holds the directory name used by the build system to locate
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the correct linker and header files.
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config BOARD
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string
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help
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This option holds the name of the board and is used to locate the files
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related to the board in the source tree (under boards/).
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The Board is the first location where we search for a linker.ld file,
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if not found we look for the linker file in
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soc/<arch>/<family>/<series>
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