include/arch/arm/arch.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2013-2014 Wind River Systems, Inc.
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 /**
  * @file
  * @brief ARM specific kernel interface header
  *
  * This header contains the ARM specific kernel interface.  It is
  * included by the kernel interface architecture-abstraction header
  * (include/arc/cpu.h)
  */

 #ifndef _ARM_ARCH__H_
 #define _ARM_ARCH__H_

 /* Add include for DTS generated information */
 #include <generated_dts_board.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /* ARM GPRs are often designated by two different names */
 #define sys_define_gpr_with_alias(name1, name2) union { u32_t name1, name2; }

 /* APIs need to support non-byte addressable architectures */

 #define OCTET_TO_SIZEOFUNIT(X) (X)
 #define SIZEOFUNIT_TO_OCTET(X) (X)

 #ifdef CONFIG_CPU_CORTEX_M
 #include <arch/arm/cortex_m/exc.h>
 #include <arch/arm/cortex_m/irq.h>
 #include <arch/arm/cortex_m/error.h>
 #include <arch/arm/cortex_m/misc.h>
 #include <arch/arm/cortex_m/memory_map.h>
 #include <arch/arm/cortex_m/asm_inline.h>
 #include <arch/arm/cortex_m/addr_types.h>
 #include <arch/arm/cortex_m/sys_io.h>
 #include <arch/arm/cortex_m/nmi.h>
 #endif


 /**
  * @brief Declare the STACK_ALIGN_SIZE
  *
  * Denotes the required alignment of the stack pointer on public API
  * boundaries
  *
  */
 #ifdef CONFIG_STACK_ALIGN_DOUBLE_WORD
 #define STACK_ALIGN_SIZE 8
 #else
 #define STACK_ALIGN_SIZE 4
 #endif

 /**
  * @brief Declare a minimum MPU guard alignment and size
  *
  * This specifies the minimum MPU guard alignment/size for the MPU.  This
  * will be used to denote the guard section of the stack, if it exists.
  *
  * One key note is that this guard results in extra bytes being added to
  * the stack.  APIs which give the stack ptr and stack size will take this
  * guard size into account.
  *
  * Stack is allocated, but initial stack pointer is at the end
  * (highest address).  Stack grows down to the actual allocation
  * address (lowest address).  Stack guard, if present, will comprise
  * the lowest MPU_GUARD_ALIGN_AND_SIZE bytes of the stack.
  *
  * As the stack grows down, it will reach the end of the stack when it
  * encounters either the stack guard region, or the stack allocation
  * address.
  *
  * ----------------------- <---- Stack allocation address + stack size +
  * |                     |            MPU_GUARD_ALIGN_AND_SIZE
  * |  Some thread data   | <---- Defined when thread is created
  * |        ...          |
  * |---------------------| <---- Actual initial stack ptr
  * |  Initial Stack Ptr  |       aligned to STACK_ALIGN_SIZE
  * |        ...          |
  * |        ...          |
  * |        ...          |
  * |        ...          |
  * |        ...          |
  * |        ...          |
  * |        ...          |
  * |        ...          |
  * |  Stack Ends         |
  * |---------------------- <---- Stack Buffer Ptr from API
  * |  MPU Guard,         |
  * |     if present      |
  * ----------------------- <---- Stack Allocation address
  *
  */
 #if defined(CONFIG_MPU_STACK_GUARD)
 #define MPU_GUARD_ALIGN_AND_SIZE	32
 #else
 #define MPU_GUARD_ALIGN_AND_SIZE	0
 #endif

 /**
  * @brief Define alignment of a stack buffer
  *
  * This is used for two different things:
  * 1) Used in checks for stack size to be a multiple of the stack buffer
  *    alignment
  * 2) Used to determine the alignment of a stack buffer
  *
  */
 #define STACK_ALIGN	max(STACK_ALIGN_SIZE, MPU_GUARD_ALIGN_AND_SIZE)

 /**
  * @brief Declare a toplevel thread stack memory region
  *
  * This declares a region of memory suitable for use as a thread's stack.
  *
  * This is the generic, historical definition. Align to STACK_ALIGN_SIZE and
  * put in * 'noinit' section so that it isn't zeroed at boot
  *
  * The declared symbol will always be a character array which can be passed to
  * k_thread_create, but should otherwise not be manipulated.
  *
  * It is legal to precede this definition with the 'static' keyword.
  *
  * It is NOT legal to take the sizeof(sym) and pass that to the stackSize
  * parameter of k_thread_create(), it may not be the same as the
  * 'size' parameter. Use K_THREAD_STACK_SIZEOF() instead.
  *
  * @param sym Thread stack symbol name
  * @param size Size of the stack memory region
  */
 #define _ARCH_THREAD_STACK_DEFINE(sym, size) \
 	struct _k_thread_stack_element __kernel_noinit __aligned(STACK_ALIGN) \
 		sym[size+MPU_GUARD_ALIGN_AND_SIZE]

 /**
  * @brief Declare a toplevel array of thread stack memory regions
  *
  * Create an array of equally sized stacks. See K_THREAD_STACK_DEFINE
  * definition for additional details and constraints.
  *
  * This is the generic, historical definition. Align to STACK_ALIGN_SIZE and
  * put in * 'noinit' section so that it isn't zeroed at boot
  *
  * @param sym Thread stack symbol name
  * @param nmemb Number of stacks to declare
  * @param size Size of the stack memory region
  */
 #define _ARCH_THREAD_STACK_ARRAY_DEFINE(sym, nmemb, size) \
 	struct _k_thread_stack_element __kernel_noinit __aligned(STACK_ALIGN) \
 		sym[nmemb][size+MPU_GUARD_ALIGN_AND_SIZE]

 /**
  * @brief Declare an embedded stack memory region
  *
  * Used for stacks embedded within other data structures. Use is highly
  * discouraged but in some cases necessary. For memory protection scenarios,
  * it is very important that any RAM preceding this member not be writable
  * by threads else a stack overflow will lead to silent corruption. In other
  * words, the containing data structure should live in RAM owned by the kernel.
  *
  * @param sym Thread stack symbol name
  * @param size Size of the stack memory region
  */
 #define _ARCH_THREAD_STACK_MEMBER(sym, size) \
 	struct _k_thread_stack_element __aligned(STACK_ALIGN) \
 		sym[size+MPU_GUARD_ALIGN_AND_SIZE]

 /**
  * @brief Return the size in bytes of a stack memory region
  *
  * Convenience macro for passing the desired stack size to k_thread_create()
  * since the underlying implementation may actually create something larger
  * (for instance a guard area).
  *
  * The value returned here is guaranteed to match the 'size' parameter
  * passed to K_THREAD_STACK_DEFINE and related macros.
  *
  * @param sym Stack memory symbol
  * @return Size of the stack
  */
 #define _ARCH_THREAD_STACK_SIZEOF(sym) (sizeof(sym) - MPU_GUARD_ALIGN_AND_SIZE)

 /**
  * @brief Get a pointer to the physical stack buffer
  *
  * Convenience macro to get at the real underlying stack buffer used by
  * the CPU. Guaranteed to be a character pointer of size K_THREAD_STACK_SIZEOF.
  * This is really only intended for diagnostic tools which want to examine
  * stack memory contents.
  *
  * @param sym Declared stack symbol name
  * @return The buffer itself, a char *
  */
 #define _ARCH_THREAD_STACK_BUFFER(sym) \
 		((char *)(sym) + MPU_GUARD_ALIGN_AND_SIZE)

 #ifdef CONFIG_USERSPACE
 #ifdef CONFIG_ARM_MPU
 #ifndef _ASMLANGUAGE
 #include <arch/arm/cortex_m/mpu/arm_mpu.h>

 #define K_MEM_PARTITION_P_NA_U_NA	(NO_ACCESS | NOT_EXEC)
 #define K_MEM_PARTITION_P_RW_U_RW	(P_RW_U_RW | NOT_EXEC)
 #define K_MEM_PARTITION_P_RW_U_RO	(P_RW_U_RO | NOT_EXEC)
 #define K_MEM_PARTITION_P_RW_U_NA	(P_RW_U_NA | NOT_EXEC)
 #define K_MEM_PARTITION_P_RO_U_RO	(P_RO_U_RO | NOT_EXEC)
 #define K_MEM_PARTITION_P_RO_U_NA	(P_RO_U_NA | NOT_EXEC)

 /* Execution-allowed attributes */
 #define K_MEM_PARTITION_P_RWX_U_RWX	(P_RW_U_RW)
 #define K_MEM_PARTITION_P_RWX_U_RX	(P_RW_U_RO)
 #define K_MEM_PARTITION_P_RX_U_RX	(P_RO_U_RO)

 #define K_MEM_PARTITION_IS_WRITABLE(attr) \
 	({ \
 		int __is_writable__; \
 		switch (attr) { \
 		case P_RW_U_RW: \
 		case P_RW_U_RO: \
 		case P_RW_U_NA: \
 			__is_writable__ = 1; \
 			break; \
 		default: \
 			__is_writable__ = 0; \
 		} \
 		__is_writable__; \
 	})
 #define K_MEM_PARTITION_IS_EXECUTABLE(attr) \
 	(!((attr) & (NOT_EXEC)))

 #endif /* _ASMLANGUAGE */
 #define _ARCH_MEM_PARTITION_ALIGN_CHECK(start, size) \
 	BUILD_ASSERT_MSG(!(((size) & ((size) - 1))) && (size) >= 32 && \
 		!((u32_t)(start) & ((size) - 1)), \
 		"the size of the partition must be power of 2" \
 		" and greater than or equal to 32." \
 		"start address of the partition must align with size.")
 #endif /* CONFIG_ARM_MPU*/
 #ifdef CONFIG_NXP_MPU
 #ifndef _ASMLANGUAGE
 #include <arch/arm/cortex_m/mpu/nxp_mpu.h>

 #define K_MEM_PARTITION_P_NA_U_NA	(MPU_REGION_SU)
 #define K_MEM_PARTITION_P_RW_U_RW	(MPU_REGION_READ | MPU_REGION_WRITE | \
 					 MPU_REGION_SU)
 #define K_MEM_PARTITION_P_RW_U_RO	(MPU_REGION_READ | MPU_REGION_SU_RW)
 #define K_MEM_PARTITION_P_RW_U_NA	(MPU_REGION_SU_RW)
 #define K_MEM_PARTITION_P_RO_U_RO	(MPU_REGION_READ | MPU_REGION_SU)
 #define K_MEM_PARTITION_P_RO_U_NA	(MPU_REGION_SU_RX)

 /* Execution-allowed attributes */
 #define K_MEM_PARTITION_P_RWX_U_RWX	(MPU_REGION_READ | MPU_REGION_WRITE | \
 					 MPU_REGION_EXEC | MPU_REGION_SU)
 #define K_MEM_PARTITION_P_RWX_U_RX	(MPU_REGION_READ | MPU_REGION_EXEC | \
 					 MPU_REGION_SU_RWX)
 #define K_MEM_PARTITION_P_RX_U_RX	(MPU_REGION_READ | MPU_REGION_EXEC | \
 					 MPU_REGION_SU)

 #define K_MEM_PARTITION_IS_WRITABLE(attr) \
 	({ \
 		int __is_writable__; \
 		switch (attr) { \
 		case MPU_REGION_WRITE: \
 		case MPU_REGION_SU_RW: \
 			__is_writable__ = 1; \
 			break; \
 		default: \
 			__is_writable__ = 0; \
 		} \
 		__is_writable__; \
 	})
 #define K_MEM_PARTITION_IS_EXECUTABLE(attr) \
 	({ \
 		int __is_executable__; \
 		switch (attr) { \
 		case MPU_REGION_SU_RX: \
 		case MPU_REGION_EXEC: \
 			__is_executable__ = 1; \
 			break; \
 		default: \
 			__is_executable__ = 0; \
 		} \
 		__is_executable__; \
 	})

 #endif /* _ASMLANGUAGE */
 #define _ARCH_MEM_PARTITION_ALIGN_CHECK(start, size) \
 	BUILD_ASSERT_MSG((size) % 32 == 0 && (size) >= 32 && \
 		(u32_t)(start) % 32 == 0, \
 		"the size of the partition must align with 32" \
 		" and greater than or equal to 32." \
 		"start address of the partition must align with 32.")
 #endif  /* CONFIG_NXP_MPU */
 #endif /* CONFIG_USERSPACE */

 #ifndef _ASMLANGUAGE
 /* Typedef for the k_mem_partition attribute*/
 typedef u32_t k_mem_partition_attr_t;
 #endif /* _ASMLANGUAGE */

 #ifdef CONFIG_ARM_USERSPACE
 #ifndef _ASMLANGUAGE
 /* Syscall invocation macros. arm-specific machine constraints used to ensure
  * args land in the proper registers. Currently, they are all stub functions
  * just for enabling CONFIG_USERSPACE on arm w/o errors.
  */

 static inline u32_t _arch_syscall_invoke6(u32_t arg1, u32_t arg2, u32_t arg3,
 					  u32_t arg4, u32_t arg5, u32_t arg6,
 					  u32_t call_id)
 {
 	return 0;
 }

 static inline u32_t _arch_syscall_invoke5(u32_t arg1, u32_t arg2, u32_t arg3,
 					  u32_t arg4, u32_t arg5, u32_t call_id)
 {
 	return 0;
 }

 static inline u32_t _arch_syscall_invoke4(u32_t arg1, u32_t arg2, u32_t arg3,
 					  u32_t arg4, u32_t call_id)
 {
 	return 0;
 }

 static inline u32_t _arch_syscall_invoke3(u32_t arg1, u32_t arg2, u32_t arg3,
 					  u32_t call_id)
 {
 	return 0;
 }

 static inline u32_t _arch_syscall_invoke2(u32_t arg1, u32_t arg2, u32_t call_id)
 {
 	return 0;
 }

 static inline u32_t _arch_syscall_invoke1(u32_t arg1, u32_t call_id)
 {
 	return 0;
 }

 static inline u32_t _arch_syscall_invoke0(u32_t call_id)
 {
 	return 0;
 }

 static inline int _arch_is_user_context(void)
 {
 	return 0;
 }
 #endif /* _ASMLANGUAGE */
 #endif /* CONFIG_ARM_USERSPACE */

 #ifdef __cplusplus
 }
 #endif

 #endif /* _ARM_ARCH__H_ */
	/*
	* Copyright (c) 2013-2014 Wind River Systems, Inc.
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	/**
	* @file
	* @brief ARM specific kernel interface header
	*
	* This header contains the ARM specific kernel interface. It is
	* included by the kernel interface architecture-abstraction header
	* (include/arc/cpu.h)
	*/

	#ifndef _ARM_ARCH__H_
	#define _ARM_ARCH__H_

	/* Add include for DTS generated information */
	#include <generated_dts_board.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/* ARM GPRs are often designated by two different names */
	#define sys_define_gpr_with_alias(name1, name2) union { u32_t name1, name2; }

	/* APIs need to support non-byte addressable architectures */

	#define OCTET_TO_SIZEOFUNIT(X) (X)
	#define SIZEOFUNIT_TO_OCTET(X) (X)

	#ifdef CONFIG_CPU_CORTEX_M
	#include <arch/arm/cortex_m/exc.h>
	#include <arch/arm/cortex_m/irq.h>
	#include <arch/arm/cortex_m/error.h>
	#include <arch/arm/cortex_m/misc.h>
	#include <arch/arm/cortex_m/memory_map.h>
	#include <arch/arm/cortex_m/asm_inline.h>
	#include <arch/arm/cortex_m/addr_types.h>
	#include <arch/arm/cortex_m/sys_io.h>
	#include <arch/arm/cortex_m/nmi.h>
	#endif


	/**
	* @brief Declare the STACK_ALIGN_SIZE
	*
	* Denotes the required alignment of the stack pointer on public API
	* boundaries
	*
	*/
	#ifdef CONFIG_STACK_ALIGN_DOUBLE_WORD
	#define STACK_ALIGN_SIZE 8
	#else
	#define STACK_ALIGN_SIZE 4
	#endif

	/**
	* @brief Declare a minimum MPU guard alignment and size
	*
	* This specifies the minimum MPU guard alignment/size for the MPU. This
	* will be used to denote the guard section of the stack, if it exists.
	*
	* One key note is that this guard results in extra bytes being added to
	* the stack. APIs which give the stack ptr and stack size will take this
	* guard size into account.
	*
	* Stack is allocated, but initial stack pointer is at the end
	* (highest address). Stack grows down to the actual allocation
	* address (lowest address). Stack guard, if present, will comprise
	* the lowest MPU_GUARD_ALIGN_AND_SIZE bytes of the stack.
	*
	* As the stack grows down, it will reach the end of the stack when it
	* encounters either the stack guard region, or the stack allocation
	* address.
	*
	* ----------------------- <---- Stack allocation address + stack size +
	* \| \| MPU_GUARD_ALIGN_AND_SIZE
	* \| Some thread data \| <---- Defined when thread is created
	* \| ... \|
	* \|---------------------\| <---- Actual initial stack ptr
	* \| Initial Stack Ptr \| aligned to STACK_ALIGN_SIZE
	* \| ... \|
	* \| ... \|
	* \| ... \|
	* \| ... \|
	* \| ... \|
	* \| ... \|
	* \| ... \|
	* \| ... \|
	* \| Stack Ends \|
	* \|---------------------- <---- Stack Buffer Ptr from API
	* \| MPU Guard, \|
	* \| if present \|
	* ----------------------- <---- Stack Allocation address
	*
	*/
	#if defined(CONFIG_MPU_STACK_GUARD)
	#define MPU_GUARD_ALIGN_AND_SIZE 32
	#else
	#define MPU_GUARD_ALIGN_AND_SIZE 0
	#endif

	/**
	* @brief Define alignment of a stack buffer
	*
	* This is used for two different things:
	* 1) Used in checks for stack size to be a multiple of the stack buffer
	* alignment
	* 2) Used to determine the alignment of a stack buffer
	*
	*/
	#define STACK_ALIGN max(STACK_ALIGN_SIZE, MPU_GUARD_ALIGN_AND_SIZE)

	/**
	* @brief Declare a toplevel thread stack memory region
	*
	* This declares a region of memory suitable for use as a thread's stack.
	*
	* This is the generic, historical definition. Align to STACK_ALIGN_SIZE and
	* put in * 'noinit' section so that it isn't zeroed at boot
	*
	* The declared symbol will always be a character array which can be passed to
	* k_thread_create, but should otherwise not be manipulated.
	*
	* It is legal to precede this definition with the 'static' keyword.
	*
	* It is NOT legal to take the sizeof(sym) and pass that to the stackSize
	* parameter of k_thread_create(), it may not be the same as the
	* 'size' parameter. Use K_THREAD_STACK_SIZEOF() instead.
	*
	* @param sym Thread stack symbol name
	* @param size Size of the stack memory region
	*/
	#define _ARCH_THREAD_STACK_DEFINE(sym, size) \
	struct _k_thread_stack_element __kernel_noinit __aligned(STACK_ALIGN) \
	sym[size+MPU_GUARD_ALIGN_AND_SIZE]

	/**
	* @brief Declare a toplevel array of thread stack memory regions
	*
	* Create an array of equally sized stacks. See K_THREAD_STACK_DEFINE
	* definition for additional details and constraints.
	*
	* This is the generic, historical definition. Align to STACK_ALIGN_SIZE and
	* put in * 'noinit' section so that it isn't zeroed at boot
	*
	* @param sym Thread stack symbol name
	* @param nmemb Number of stacks to declare
	* @param size Size of the stack memory region
	*/
	#define _ARCH_THREAD_STACK_ARRAY_DEFINE(sym, nmemb, size) \
	struct _k_thread_stack_element __kernel_noinit __aligned(STACK_ALIGN) \
	sym[nmemb][size+MPU_GUARD_ALIGN_AND_SIZE]

	/**
	* @brief Declare an embedded stack memory region
	*
	* Used for stacks embedded within other data structures. Use is highly
	* discouraged but in some cases necessary. For memory protection scenarios,
	* it is very important that any RAM preceding this member not be writable
	* by threads else a stack overflow will lead to silent corruption. In other
	* words, the containing data structure should live in RAM owned by the kernel.
	*
	* @param sym Thread stack symbol name
	* @param size Size of the stack memory region
	*/
	#define _ARCH_THREAD_STACK_MEMBER(sym, size) \
	struct _k_thread_stack_element __aligned(STACK_ALIGN) \
	sym[size+MPU_GUARD_ALIGN_AND_SIZE]

	/**
	* @brief Return the size in bytes of a stack memory region
	*
	* Convenience macro for passing the desired stack size to k_thread_create()
	* since the underlying implementation may actually create something larger
	* (for instance a guard area).
	*
	* The value returned here is guaranteed to match the 'size' parameter
	* passed to K_THREAD_STACK_DEFINE and related macros.
	*
	* @param sym Stack memory symbol
	* @return Size of the stack
	*/
	#define _ARCH_THREAD_STACK_SIZEOF(sym) (sizeof(sym) - MPU_GUARD_ALIGN_AND_SIZE)

	/**
	* @brief Get a pointer to the physical stack buffer
	*
	* Convenience macro to get at the real underlying stack buffer used by
	* the CPU. Guaranteed to be a character pointer of size K_THREAD_STACK_SIZEOF.
	* This is really only intended for diagnostic tools which want to examine
	* stack memory contents.
	*
	* @param sym Declared stack symbol name
	* @return The buffer itself, a char *
	*/
	#define _ARCH_THREAD_STACK_BUFFER(sym) \
	((char *)(sym) + MPU_GUARD_ALIGN_AND_SIZE)

	#ifdef CONFIG_USERSPACE
	#ifdef CONFIG_ARM_MPU
	#ifndef _ASMLANGUAGE
	#include <arch/arm/cortex_m/mpu/arm_mpu.h>

	#define K_MEM_PARTITION_P_NA_U_NA (NO_ACCESS \| NOT_EXEC)
	#define K_MEM_PARTITION_P_RW_U_RW (P_RW_U_RW \| NOT_EXEC)
	#define K_MEM_PARTITION_P_RW_U_RO (P_RW_U_RO \| NOT_EXEC)
	#define K_MEM_PARTITION_P_RW_U_NA (P_RW_U_NA \| NOT_EXEC)
	#define K_MEM_PARTITION_P_RO_U_RO (P_RO_U_RO \| NOT_EXEC)
	#define K_MEM_PARTITION_P_RO_U_NA (P_RO_U_NA \| NOT_EXEC)

	/* Execution-allowed attributes */
	#define K_MEM_PARTITION_P_RWX_U_RWX (P_RW_U_RW)
	#define K_MEM_PARTITION_P_RWX_U_RX (P_RW_U_RO)
	#define K_MEM_PARTITION_P_RX_U_RX (P_RO_U_RO)

	#define K_MEM_PARTITION_IS_WRITABLE(attr) \
	({ \
	int __is_writable__; \
	switch (attr) { \
	case P_RW_U_RW: \
	case P_RW_U_RO: \
	case P_RW_U_NA: \
	__is_writable__ = 1; \
	break; \
	default: \
	__is_writable__ = 0; \
	} \
	__is_writable__; \
	})
	#define K_MEM_PARTITION_IS_EXECUTABLE(attr) \
	(!((attr) & (NOT_EXEC)))

	#endif /* _ASMLANGUAGE */
	#define _ARCH_MEM_PARTITION_ALIGN_CHECK(start, size) \
	BUILD_ASSERT_MSG(!(((size) & ((size) - 1))) && (size) >= 32 && \
	!((u32_t)(start) & ((size) - 1)), \
	"the size of the partition must be power of 2" \
	" and greater than or equal to 32." \
	"start address of the partition must align with size.")
	#endif /* CONFIG_ARM_MPU*/
	#ifdef CONFIG_NXP_MPU
	#ifndef _ASMLANGUAGE
	#include <arch/arm/cortex_m/mpu/nxp_mpu.h>

	#define K_MEM_PARTITION_P_NA_U_NA (MPU_REGION_SU)
	#define K_MEM_PARTITION_P_RW_U_RW (MPU_REGION_READ \| MPU_REGION_WRITE \| \
	MPU_REGION_SU)
	#define K_MEM_PARTITION_P_RW_U_RO (MPU_REGION_READ \| MPU_REGION_SU_RW)
	#define K_MEM_PARTITION_P_RW_U_NA (MPU_REGION_SU_RW)
	#define K_MEM_PARTITION_P_RO_U_RO (MPU_REGION_READ \| MPU_REGION_SU)
	#define K_MEM_PARTITION_P_RO_U_NA (MPU_REGION_SU_RX)

	/* Execution-allowed attributes */
	#define K_MEM_PARTITION_P_RWX_U_RWX (MPU_REGION_READ \| MPU_REGION_WRITE \| \
	MPU_REGION_EXEC \| MPU_REGION_SU)
	#define K_MEM_PARTITION_P_RWX_U_RX (MPU_REGION_READ \| MPU_REGION_EXEC \| \
	MPU_REGION_SU_RWX)
	#define K_MEM_PARTITION_P_RX_U_RX (MPU_REGION_READ \| MPU_REGION_EXEC \| \
	MPU_REGION_SU)

	#define K_MEM_PARTITION_IS_WRITABLE(attr) \
	({ \
	int __is_writable__; \
	switch (attr) { \
	case MPU_REGION_WRITE: \
	case MPU_REGION_SU_RW: \
	__is_writable__ = 1; \
	break; \
	default: \
	__is_writable__ = 0; \
	} \
	__is_writable__; \
	})
	#define K_MEM_PARTITION_IS_EXECUTABLE(attr) \
	({ \
	int __is_executable__; \
	switch (attr) { \
	case MPU_REGION_SU_RX: \
	case MPU_REGION_EXEC: \
	__is_executable__ = 1; \
	break; \
	default: \
	__is_executable__ = 0; \
	} \
	__is_executable__; \
	})

	#endif /* _ASMLANGUAGE */
	#define _ARCH_MEM_PARTITION_ALIGN_CHECK(start, size) \
	BUILD_ASSERT_MSG((size) % 32 == 0 && (size) >= 32 && \
	(u32_t)(start) % 32 == 0, \
	"the size of the partition must align with 32" \
	" and greater than or equal to 32." \
	"start address of the partition must align with 32.")
	#endif /* CONFIG_NXP_MPU */
	#endif /* CONFIG_USERSPACE */

	#ifndef _ASMLANGUAGE
	/* Typedef for the k_mem_partition attribute*/
	typedef u32_t k_mem_partition_attr_t;
	#endif /* _ASMLANGUAGE */

	#ifdef CONFIG_ARM_USERSPACE
	#ifndef _ASMLANGUAGE
	/* Syscall invocation macros. arm-specific machine constraints used to ensure
	* args land in the proper registers. Currently, they are all stub functions
	* just for enabling CONFIG_USERSPACE on arm w/o errors.
	*/

	static inline u32_t _arch_syscall_invoke6(u32_t arg1, u32_t arg2, u32_t arg3,
	u32_t arg4, u32_t arg5, u32_t arg6,
	u32_t call_id)
	{
	return 0;
	}

	static inline u32_t _arch_syscall_invoke5(u32_t arg1, u32_t arg2, u32_t arg3,
	u32_t arg4, u32_t arg5, u32_t call_id)
	{
	return 0;
	}

	static inline u32_t _arch_syscall_invoke4(u32_t arg1, u32_t arg2, u32_t arg3,
	u32_t arg4, u32_t call_id)
	{
	return 0;
	}

	static inline u32_t _arch_syscall_invoke3(u32_t arg1, u32_t arg2, u32_t arg3,
	u32_t call_id)
	{
	return 0;
	}

	static inline u32_t _arch_syscall_invoke2(u32_t arg1, u32_t arg2, u32_t call_id)
	{
	return 0;
	}

	static inline u32_t _arch_syscall_invoke1(u32_t arg1, u32_t call_id)
	{
	return 0;
	}

	static inline u32_t _arch_syscall_invoke0(u32_t call_id)
	{
	return 0;
	}

	static inline int _arch_is_user_context(void)
	{
	return 0;
	}
	#endif /* _ASMLANGUAGE */
	#endif /* CONFIG_ARM_USERSPACE */

	#ifdef __cplusplus
	}
	#endif

	#endif /* _ARM_ARCH__H_ */