# ARM64 core configuration options # Copyright (c) 2019 Carlo Caione # SPDX-License-Identifier: Apache-2.0 config CPU_CORTEX_A bool select CPU_CORTEX select HAS_FLASH_LOAD_OFFSET select SCHED_IPI_SUPPORTED if SMP select CPU_HAS_FPU imply FPU imply FPU_SHARING help This option signifies the use of a CPU of the Cortex-A family. config CPU_AARCH64_CORTEX_R bool select CPU_CORTEX select HAS_FLASH_LOAD_OFFSET help This option signifies the use of a CPU of the Cortex-R 64-bit family. config CPU_CORTEX_A53 bool select CPU_CORTEX_A select ARMV8_A help This option signifies the use of a Cortex-A53 CPU config CPU_CORTEX_A72 bool select CPU_CORTEX_A select ARMV8_A help This option signifies the use of a Cortex-A72 CPU config CPU_CORTEX_R82 bool select CPU_AARCH64_CORTEX_R select ARMV8_R help This option signifies the use of a Cortex-R82 CPU config HAS_ARM_SMCCC bool help Include support for the Secure Monitor Call (SMC) and Hypervisor Call (HVC) instructions on Armv7 and above architectures. config NUM_IRQS int config MAIN_STACK_SIZE default 4096 config IDLE_STACK_SIZE default 4096 config ISR_STACK_SIZE default 4096 config TEST_EXTRA_STACK_SIZE default 2048 config SYSTEM_WORKQUEUE_STACK_SIZE default 4096 config CMSIS_THREAD_MAX_STACK_SIZE default 4096 config CMSIS_V2_THREAD_MAX_STACK_SIZE default 4096 config CMSIS_V2_THREAD_DYNAMIC_STACK_SIZE default 4096 config IPM_CONSOLE_STACK_SIZE default 2048 config AARCH64_IMAGE_HEADER bool "Add image header" default y if ARM_MMU help This option enables standard ARM64 boot image header used by Linux and understood by loaders such as u-boot on Xen xl tool. config PRIVILEGED_STACK_SIZE default 4096 config KOBJECT_TEXT_AREA default 512 if TEST if CPU_CORTEX_A config ARMV8_A_NS bool "ARMv8-A Normal World (Non-Secure world of Trustzone)" help This option signifies that Zephyr is entered in TrustZone Non-Secure state config ARMV8_A bool select ATOMIC_OPERATIONS_BUILTIN select CPU_HAS_MMU select ARCH_HAS_USERSPACE if ARM_MMU select ARCH_HAS_NOCACHE_MEMORY_SUPPORT if ARM_MMU help This option signifies the use of an ARMv8-A processor implementation. From https://developer.arm.com/products/architecture/cpu-architecture/a-profile: The Armv8-A architecture introduces the ability to use 64-bit and 32-bit Execution states, known as AArch64 and AArch32 respectively. The AArch64 Execution state supports the A64 instruction set, holds addresses in 64-bit registers and allows instructions in the base instruction set to use 64-bit registers for their processing. The AArch32 Execution state is a 32-bit Execution state that preserves backwards compatibility with the Armv7-A architecture and enhances that profile so that it can support some features included in the AArch64 state. It supports the T32 and A32 instruction sets. endif # CPU_CORTEX_A if CPU_AARCH64_CORTEX_R config ARMV8_R bool select ATOMIC_OPERATIONS_BUILTIN select SCHED_IPI_SUPPORTED if SMP select ARCH_HAS_USERSPACE if ARM_MPU help This option signifies the use of an ARMv8-R processor implementation. From https://developer.arm.com/products/architecture/cpu-architecture/r-profile: The Armv8-R architecture targets at the Real-time profile. It introduces virtualization at the highest security level while retaining the Protected Memory System Architecture (PMSA) based on a Memory Protection Unit (MPU). It supports the A32 and T32 instruction sets. rsource "cortex_r/Kconfig" endif # CPU_AARCH64_CORTEX_R if CPU_CORTEX_A || CPU_AARCH64_CORTEX_R config GEN_ISR_TABLES default y config GEN_IRQ_VECTOR_TABLE default n config ARM_MMU bool "ARM MMU Support" default n if CPU_AARCH64_CORTEX_R default y select MMU select SRAM_REGION_PERMISSIONS select ARCH_MEM_DOMAIN_SYNCHRONOUS_API if USERSPACE select ARCH_MEM_DOMAIN_DATA if USERSPACE help Memory Management Unit support. config EXCEPTION_DEBUG bool "Unhandled exception debugging information" default y depends on LOG help Print human-readable information about exception vectors, cause codes, and parameters, at a cost of code/data size for the human-readable strings. config XIP select AARCH64_IMAGE_HEADER if ARM_MMU config MMU_PAGE_SIZE default 0x1000 choice prompt "Virtual address space size" default ARM64_VA_BITS_32 help Allows choosing one of multiple possible virtual address space sizes. The level of translation table is determined by a combination of page size and virtual address space size. config ARM64_VA_BITS_32 bool "32-bit" config ARM64_VA_BITS_36 bool "36-bit" config ARM64_VA_BITS_40 bool "40-bit" config ARM64_VA_BITS_42 bool "42-bit" config ARM64_VA_BITS_48 bool "48-bit" endchoice config ARM64_VA_BITS int default 32 if ARM64_VA_BITS_32 default 36 if ARM64_VA_BITS_36 default 40 if ARM64_VA_BITS_40 default 42 if ARM64_VA_BITS_42 default 48 if ARM64_VA_BITS_48 choice prompt "Physical address space size" default ARM64_PA_BITS_32 help Choose the maximum physical address range that the kernel will support. config ARM64_PA_BITS_32 bool "32-bit" config ARM64_PA_BITS_36 bool "36-bit" config ARM64_PA_BITS_40 bool "40-bit" config ARM64_PA_BITS_42 bool "42-bit" config ARM64_PA_BITS_48 bool "48-bit" endchoice config ARM64_PA_BITS int default 32 if ARM64_PA_BITS_32 default 36 if ARM64_PA_BITS_36 default 40 if ARM64_PA_BITS_40 default 42 if ARM64_PA_BITS_42 default 48 if ARM64_PA_BITS_48 config MAX_XLAT_TABLES int "Maximum numbers of translation tables" default 20 if USERSPACE && (ARM64_VA_BITS >= 40) default 16 if USERSPACE default 12 if (ARM64_VA_BITS >= 40) default 8 help This option specifies the maximum numbers of translation tables. Based on this, translation tables are allocated at compile time and used at runtime as needed. If the runtime need exceeds preallocated numbers of translation tables, it will result in assert. Number of translation tables required is decided based on how many discrete memory regions (both normal and device memory) are present on given platform and how much granularity is required while assigning attributes to these memory regions. endif # ARM_MMU endif # CPU_CORTEX_A || CPU_AARCH64_CORTEX_R