# # For a description of the syntax of this configuration file, # see misc/tools/kconfig-language.txt. # if ARCH_ARM comment "ARM Options" choice prompt "ARM chip selection" default ARCH_CHIP_STM32 config ARCH_CHIP_A1X bool "Allwinner A1X" select ARCH_CORTEXA8 select ARCH_HAVE_FPU select ARCH_HAVE_MMU select ARCH_USE_MMU select ARCH_HAVE_LOWVECTORS select ARCH_HAVE_SDRAM select BOOT_RUNFROMSDRAM select ARCH_HAVE_ADDRENV select ARCH_NEED_ADDRENV_MAPPING ---help--- Allwinner A1X family: A10, A10S (A12), A13 (ARM Cortex-A8) config ARCH_CHIP_C5471 bool "TMS320 C5471" select ARCH_ARM7TDMI select ARCH_HAVE_LOWVECTORS select ARCH_HAVE_OTHER_UART ---help--- TI TMS320 C5471, A180, or DA180 (ARM7TDMI) config ARCH_CHIP_CALYPSO bool "Calypso" select ARCH_ARM7TDMI select ARCH_HAVE_HEAP2 select ARCH_HAVE_LOWVECTORS select ARCH_HAVE_OTHER_UART ---help--- TI Calypso-based cell phones (ARM7TDMI) config ARCH_CHIP_DM320 bool "TMS320 DM320" select ARCH_ARM926EJS select ARCH_HAVE_LOWVECTORS ---help--- TI DMS320 DM320 (ARM926EJS) config ARCH_CHIP_EFM32 bool "Energy Micro" select ARCH_HAVE_CMNVECTOR select ARMV7M_CMNVECTOR ---help--- Energy Micro EFM32 microcontrollers (ARM Cortex-M). config ARCH_CHIP_IMX bool "Freescale iMX" select ARCH_ARM920T select ARCH_HAVE_HEAP2 select ARCH_HAVE_LOWVECTORS ---help--- Freescale iMX architectures (ARM920T) config ARCH_CHIP_KINETIS bool "Freescale Kinetis" select ARCH_CORTEXM4 select ARCH_HAVE_MPU select ARCH_HAVE_FPU select ARCH_HAVE_RAMFUNCS ---help--- Freescale Kinetis Architectures (ARM Cortex-M4) config ARCH_CHIP_KL bool "Freescale Kinetis L" select ARCH_CORTEXM0 select ARCH_HAVE_CMNVECTOR ---help--- Freescale Kinetis L Architectures (ARM Cortex-M0+) config ARCH_CHIP_LM bool "TI/Luminary Stellaris" select ARCH_HAVE_CMNVECTOR select ARCH_HAVE_MPU ---help--- TI/Luminary Stellaris LMS3 and LM4F architectures (ARM Cortex-M3/4) config ARCH_CHIP_TIVA bool "TI Tiva" select ARCH_HAVE_CMNVECTOR select ARCH_HAVE_MPU select ARCH_HAVE_FPU ---help--- TI Tiva TM4C architectures (ARM Cortex-M4) config ARCH_CHIP_LPC17XX bool "NXP LPC17xx" select ARCH_CORTEXM3 select ARCH_HAVE_CMNVECTOR select ARCH_HAVE_MPU ---help--- NXP LPC17xx architectures (ARM Cortex-M3) config ARCH_CHIP_LPC214X bool "NXP LPC214x" select ARCH_ARM7TDMI select ARCH_HAVE_LOWVECTORS ---help--- NXP LPC2145x architectures (ARM7TDMI) config ARCH_CHIP_LPC2378 bool "NXP LPC2378" select ARCH_ARM7TDMI select ARCH_HAVE_LOWVECTORS ---help--- NXP LPC2145x architectures (ARM7TDMI) config ARCH_CHIP_LPC31XX bool "NXP LPC31XX" select ARCH_ARM926EJS select ARCH_HAVE_LOWVECTORS ---help--- NPX LPC31XX architectures (ARM926EJS). config ARCH_CHIP_LPC43XX bool "NXP LPC43XX" select ARCH_CORTEXM4 select ARCH_HAVE_CMNVECTOR select ARMV7M_CMNVECTOR select ARCH_HAVE_MPU select ARCH_HAVE_FPU ---help--- NPX LPC43XX architectures (ARM Cortex-M4). config ARCH_CHIP_NUC1XX bool "Nuvoton NUC100/120" select ARCH_CORTEXM0 select ARCH_HAVE_CMNVECTOR ---help--- NPX LPC43XX architectures (ARM Cortex-M4). config ARCH_CHIP_SAMA5 bool "Atmel SAMA5" select ARCH_CORTEXA5 select ARCH_HAVE_FPU select ARCH_HAVE_LOWVECTORS select ARCH_HAVE_I2CRESET select ARCH_HAVE_TICKLESS select ARCH_HAVE_ADDRENV select ARCH_NEED_ADDRENV_MAPPING ---help--- Atmel SAMA5 (ARM Cortex-A5) config ARCH_CHIP_SAMD bool "Atmel SAMD" select ARCH_CORTEXM0 select ARCH_HAVE_CMNVECTOR ---help--- Atmel SAMD (ARM Cortex-M0+) config ARCH_CHIP_SAM34 bool "Atmel SAM3/SAM4" select ARCH_HAVE_CMNVECTOR select ARCH_HAVE_MPU select ARCH_HAVE_RAMFUNCS select ARMV7M_HAVE_STACKCHECK ---help--- Atmel SAM3 (ARM Cortex-M3) and SAM4 (ARM Cortex-M4) architectures config ARCH_CHIP_SAMV7 bool "Atmel SAMV7" select ARCH_HAVE_CMNVECTOR select ARMV7M_CMNVECTOR select ARCH_CORTEXM7 select ARCH_HAVE_MPU select ARCH_HAVE_RAMFUNCS select ARMV7M_HAVE_STACKCHECK ---help--- Atmel SAMV7 (ARM Cortex-M7) architectures config ARCH_CHIP_STM32 bool "STMicro STM32" select ARCH_HAVE_CMNVECTOR select ARCH_HAVE_MPU select ARCH_HAVE_I2CRESET select ARCH_HAVE_HEAPCHECK select ARMV7M_HAVE_STACKCHECK ---help--- STMicro STM32 architectures (ARM Cortex-M3/4). config ARCH_CHIP_STR71X bool "STMicro STR71x" select ARCH_ARM7TDMI select ARCH_HAVE_LOWVECTORS ---help--- STMicro STR71x architectures (ARM7TDMI). endchoice config ARCH_ARM7TDMI bool default n config ARCH_ARM926EJS bool default n select ARCH_HAVE_MMU select ARCH_USE_MMU config ARCH_ARM920T bool default n select ARCH_HAVE_MMU select ARCH_USE_MMU config ARCH_CORTEXM0 bool default n select ARCH_HAVE_IRQPRIO config ARCH_CORTEXM3 bool default n select ARCH_HAVE_IRQPRIO select ARCH_HAVE_RAMVECTORS select ARCH_HAVE_HIPRI_INTERRUPT config ARCH_CORTEXM4 bool default n select ARCH_HAVE_IRQPRIO select ARCH_HAVE_RAMVECTORS select ARCH_HAVE_HIPRI_INTERRUPT config ARCH_CORTEXM7 bool default n select ARCH_HAVE_IRQPRIO select ARCH_HAVE_RAMVECTORS select ARCH_HAVE_HIPRI_INTERRUPT config ARCH_CORTEXA5 bool default n select ARCH_HAVE_IRQPRIO select ARCH_HAVE_MMU select ARCH_USE_MMU select ARCH_HAVE_COHERENT_DCACHE if ELF config ARCH_CORTEXA8 bool default n select ARCH_HAVE_IRQPRIO select ARCH_HAVE_MMU select ARCH_USE_MMU select ARCH_HAVE_COHERENT_DCACHE if ELF config ARCH_FAMILY string default "arm" if ARCH_ARM7TDMI || ARCH_ARM926EJS || ARCH_ARM920T default "armv6-m" if ARCH_CORTEXM0 default "armv7-a" if ARCH_CORTEXA5 || ARCH_CORTEXA8 default "armv7-m" if ARCH_CORTEXM3 || ARCH_CORTEXM4 || ARCH_CORTEXM7 config ARCH_CHIP string default "a1x" if ARCH_CHIP_A1X default "c5471" if ARCH_CHIP_C5471 default "calypso" if ARCH_CHIP_CALYPSO default "dm320" if ARCH_CHIP_DM320 default "efm32" if ARCH_CHIP_EFM32 default "imx" if ARCH_CHIP_IMX default "kinetis" if ARCH_CHIP_KINETIS default "kl" if ARCH_CHIP_KL default "tiva" if ARCH_CHIP_LM || ARCH_CHIP_TIVA default "lpc17xx" if ARCH_CHIP_LPC17XX default "lpc214x" if ARCH_CHIP_LPC214X default "lpc2378" if ARCH_CHIP_LPC2378 default "lpc31xx" if ARCH_CHIP_LPC31XX default "lpc43xx" if ARCH_CHIP_LPC43XX default "nuc1xx" if ARCH_CHIP_NUC1XX default "sama5" if ARCH_CHIP_SAMA5 default "samd" if ARCH_CHIP_SAMD default "sam34" if ARCH_CHIP_SAM34 default "samv7" if ARCH_CHIP_SAMV7 default "stm32" if ARCH_CHIP_STM32 default "str71x" if ARCH_CHIP_STR71X config ARMV7M_USEBASEPRI bool "Use BASEPRI Register" default n depends on ARCH_CORTEXM3 || ARCH_CORTEXM4 || ARCH_CORTEXM7 ---help--- Use the BASEPRI register to enable and disable interrupts. By default, the PRIMASK register is used for this purpose. This usually results in hardfaults when supervisor calls are made. Though, these hardfaults are properly handled by the RTOS, the hardfaults can confuse some debuggers. With the BASEPRI register, these hardfaults, will be avoided. For more details see http://www.nuttx.org/doku.php?id=wiki:nxinternal:svcall config ARCH_HAVE_CMNVECTOR bool config ARMV7M_CMNVECTOR bool "Use common ARMv7-M vectors" default n depends on ARCH_HAVE_CMNVECTOR ---help--- Some architectures use their own, built-in vector logic. Some use only the common vector logic. Some can use either their own built-in vector logic or the common vector logic. This applies only to ARMv7-M architectures. config ARMV7M_LAZYFPU bool "Lazy FPU storage" default n depends on ARCH_HAVE_CMNVECTOR ---help--- There are two forms of the common vector logic. There are pros and cons to each option: 1) The standard common vector logic exploits features of the ARMv7-M architecture to save the all of floating registers on entry into each interrupt and then to restore the floating registers when the interrupt returns. The primary advantage to this approach is that floating point operations are available in interrupt handling logic. Since the volatile registers are preserved, operations on the floating point registers by interrupt handling logic has no ill effect. The downside is, of course, that more stack operations are required on each interrupt to save and store the floating point registers. Because of the some special features of the ARMv-M, this is not as much overhead as you might expect, but overhead nonetheless. 2) The lazy FPU common vector logic does not save or restore floating point registers on entry and exit from the interrupt handler. Rather, the floating point registers are not restored until it is absolutely necessary to do so when a context switch occurs and the interrupt handler will be returning to a different floating point context. Since floating point registers are not protected, floating point operations must not be performed in interrupt handling logic. Better interrupt performance is be expected, however. By default, the "standard" common vector logic is build. This option selects the alternate lazy FPU common vector logic. config ARCH_HAVE_FPU bool default n config ARCH_HAVE_DPFPU bool default n config ARCH_FPU bool "FPU support" default y depends on ARCH_HAVE_FPU ---help--- Build in support for the ARM Cortex-M4 Floating Point Unit (FPU). Check your chip specifications first; not all Cortex-M4 chips support the FPU. config ARCH_DPFPU bool "Double precision FPU support" default y depends on ARCH_FPU && ARCH_HAVE_DPFPU ---help--- Enable toolchain support for double precision (64-bit) floating point if both the toolchain and the hardware support it. config ARMV7M_MPU bool "MPU support" default n depends on ARCH_HAVE_MPU select ARCH_USE_MPU ---help--- Build in support for the ARM Cortex-M3/4 Memory Protection Unit (MPU). Check your chip specifications first; not all Cortex-M3/4 chips support the MPU. config ARMV7M_MPU_NREGIONS int "Number of MPU regions" default 8 depends on ARMV7M_MPU ---help--- This is the number of protection regions supported by the MPU. config ARCH_HAVE_LOWVECTORS bool config ARCH_LOWVECTORS bool "Vectors in low memory" default n depends on ARCH_HAVE_LOWVECTORS ---help--- Support ARM vectors in low memory. config ARCH_ROMPGTABLE bool "ROM page table" default n depends on ARCH_USE_MMU ---help--- Support a fixed memory mapping use a (read-only) page table in ROM/FLASH. config DEBUG_HARDFAULT bool "Verbose Hard-Fault Debug" default n depends on DEBUG && (ARCH_CORTEXM3 || ARCH_CORTEXM4 || ARCH_CORTEXM7) ---help--- Enables verbose debug output when a hard fault is occurs. This verbose output is sometimes helpful when debugging difficult hard fault problems, but may be more than you typcially want to see. if ARCH_CORTEXM0 source arch/arm/src/armv6-m/Kconfig endif if ARCH_CORTEXA5 || ARCH_CORTEXA8 source arch/arm/src/armv7-a/Kconfig endif if ARCH_CORTEXM3 || ARCH_CORTEXM4 || ARCH_CORTEXM7 source arch/arm/src/armv7-m/Kconfig endif if ARCH_ARM7TDMI || ARCH_ARM926EJS source arch/arm/src/arm/Kconfig endif if ARCH_CHIP_A1X source arch/arm/src/a1x/Kconfig endif if ARCH_CHIP_C5471 source arch/arm/src/c5471/Kconfig endif if ARCH_CHIP_CALYPSO source arch/arm/src/calypso/Kconfig endif if ARCH_CHIP_DM320 source arch/arm/src/dm320/Kconfig endif if ARCH_CHIP_EFM32 source arch/arm/src/efm32/Kconfig endif if ARCH_CHIP_IMX source arch/arm/src/imx/Kconfig endif if ARCH_CHIP_KINETIS source arch/arm/src/kinetis/Kconfig endif if ARCH_CHIP_KL source arch/arm/src/kl/Kconfig endif if ARCH_CHIP_LM || ARCH_CHIP_TIVA source arch/arm/src/tiva/Kconfig endif if ARCH_CHIP_LPC17XX source arch/arm/src/lpc17xx/Kconfig endif if ARCH_CHIP_LPC214X source arch/arm/src/lpc214x/Kconfig endif if ARCH_CHIP_LPC2378 source arch/arm/src/lpc2378/Kconfig endif if ARCH_CHIP_LPC31XX source arch/arm/src/lpc31xx/Kconfig endif if ARCH_CHIP_LPC43XX source arch/arm/src/lpc43xx/Kconfig endif if ARCH_CHIP_NUC1XX source arch/arm/src/nuc1xx/Kconfig endif if ARCH_CHIP_SAMA5 source arch/arm/src/sama5/Kconfig endif if ARCH_CHIP_SAMD source arch/arm/src/samd/Kconfig endif if ARCH_CHIP_SAM34 source arch/arm/src/sam34/Kconfig endif if ARCH_CHIP_SAMV7 source arch/arm/src/samv7/Kconfig endif if ARCH_CHIP_STM32 source arch/arm/src/stm32/Kconfig endif if ARCH_CHIP_STR71X source arch/arm/src/str71x/Kconfig endif endif