arch/arm/core/fault_s.S - 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 Fault handlers for ARM Cortex-M
  *
  * Fault handlers for ARM Cortex-M processors.
  */

 #include <toolchain.h>
 #include <linker/sections.h>
 #include <arch/cpu.h>

 _ASM_FILE_PROLOGUE

 GTEXT(_Fault)

 GTEXT(__hard_fault)
 #if defined(CONFIG_ARMV6_M_ARMV8_M_BASELINE)
 /* HardFault is used for all fault conditions on ARMv6-M. */
 #elif defined(CONFIG_ARMV7_M_ARMV8_M_MAINLINE)
 GTEXT(__mpu_fault)
 GTEXT(__bus_fault)
 GTEXT(__usage_fault)
 #if defined(CONFIG_ARM_SECURE_FIRMWARE)
 GTEXT(__secure_fault)
 #endif /* CONFIG_ARM_SECURE_FIRMWARE*/
 GTEXT(__debug_monitor)
 #else
 #error Unknown ARM architecture
 #endif /* CONFIG_ARMV6_M_ARMV8_M_BASELINE */
 GTEXT(__reserved)

 /**
  *
  * @brief Fault handler installed in the fault and reserved vectors
  *
  * Entry point for the hard fault, MPU fault, bus fault, usage fault, debug
  * monitor and reserved exceptions.
  *
  * Save the values of the MSP and PSP in r0 and r1 respectively, so the first
  * and second parameters to the _Fault() C function that will handle the rest.
  * This has to be done because at this point we do not know if the fault
  * happened while handling an exception or not, and thus the ESF could be on
  * either stack. _Fault() will find out where the ESF resides.
  *
  * Provides these symbols:
  *
  *   __hard_fault
  *   __mpu_fault
  *   __bus_fault
  *   __usage_fault
  *   __secure_fault
  *   __debug_monitor
  *   __reserved
  */

 SECTION_SUBSEC_FUNC(TEXT,__fault,__hard_fault)
 #if defined(CONFIG_ARMV6_M_ARMV8_M_BASELINE)
 /* HardFault is used for all fault conditions on ARMv6-M. */
 #elif defined(CONFIG_ARMV7_M_ARMV8_M_MAINLINE)
 SECTION_SUBSEC_FUNC(TEXT,__fault,__mpu_fault)
 SECTION_SUBSEC_FUNC(TEXT,__fault,__bus_fault)
 SECTION_SUBSEC_FUNC(TEXT,__fault,__usage_fault)
 #if defined(CONFIG_ARM_SECURE_FIRMWARE)
 SECTION_SUBSEC_FUNC(TEXT,__fault,__secure_fault)
 #endif /* CONFIG_ARM_SECURE_FIRMWARE */
 SECTION_SUBSEC_FUNC(TEXT,__fault,__debug_monitor)
 #else
 #error Unknown ARM architecture
 #endif /* CONFIG_ARMV6_M_ARMV8_M_BASELINE */
 SECTION_SUBSEC_FUNC(TEXT,__fault,__reserved)

 #if defined(CONFIG_ARMV6_M_ARMV8_M_BASELINE)
 	/* force unlock interrupts */
 	cpsie i

 	/* Use EXC_RETURN state to find out if stack frame is on the
 	 * MSP or PSP
 	 */
 	ldr r0, =0x4
 	mov r1, lr
 	tst r1, r0
 	beq _stack_frame_msp
 	mrs r0, PSP
 	bne _stack_frame_endif
 _stack_frame_msp:
 	mrs r0, MSP
 _stack_frame_endif:

 #elif defined(CONFIG_ARMV7_M_ARMV8_M_MAINLINE)
 	/* force unlock interrupts */
 	eors.n r0, r0
 	msr BASEPRI, r0

 #if !defined(CONFIG_ARM_SECURE_FIRMWARE) && \
 	!defined(CONFIG_ARM_NONSECURE_FIRMWARE)
 	/* this checks to see if we are in a nested exception */
 	ldr ip, =_SCS_ICSR
 	ldr ip, [ip]
 	ands.w ip, #_SCS_ICSR_RETTOBASE

 	ite eq			/* is the RETTOBASE bit zero ? */
 		mrseq r0, MSP	/* if so, we're not returning to thread mode,
 				 * thus this is a nested exception: the stack
 				 * frame is on the MSP */
 		mrsne r0, PSP	/* if not, we are returning to thread mode, thus
 				 *  this is not a nested exception: the stack
 				 * frame is on the PSP */
 #else
 	/* RETTOBASE flag is not banked between security states.
 	 * Therefore, we cannot rely on this flag, to obtain the SP
 	 * of the current security state.
 	 * Instead, we use the EXC_RETURN.SPSEL flag.
 	 */
  	ldr r0, =0x4
 	mov r1, lr
 	tst r1, r0
 	beq _s_stack_frame_msp
 	mrs r0, PSP
 	bne _s_stack_frame_endif
 _s_stack_frame_msp:
 	mrs r0, MSP
 _s_stack_frame_endif:
 #endif /* CONFIG_ARM_SECURE_FIRMWARE || CONFIG_ARM_NONSECURE_FIRMWARE */
 #else
 #error Unknown ARM architecture
 #endif /* CONFIG_ARMV6_M_ARMV8_M_BASELINE */

 #if defined(CONFIG_ARM_SECURE_FIRMWARE) || \
 	defined(CONFIG_ARM_NONSECURE_FIRMWARE)
 	/* The stack pointer that is retrieved above, points to the stack,
 	 * where the exception is taken. However, the exeption may have
 	 * occurred in the alternative security state.
 	 *
 	 * To determine this we need to inspect the EXC_RETURN value
 	 * located in the LR. Therefore, we supply the LR value as an
 	 * argument to the fault handler.
 	 */
 	mov r1, lr
 #endif /* CONFIG_ARM_SECURE_FIRMWARE || CONFIG_ARM_NONSECURE_FIRMWARE */
 	push {r0, lr}
 	bl _Fault

 	pop {r0, pc}

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

	/**
	* @file
	* @brief Fault handlers for ARM Cortex-M
	*
	* Fault handlers for ARM Cortex-M processors.
	*/

	#include <toolchain.h>
	#include <linker/sections.h>
	#include <arch/cpu.h>

	_ASM_FILE_PROLOGUE

	GTEXT(_Fault)

	GTEXT(__hard_fault)
	#if defined(CONFIG_ARMV6_M_ARMV8_M_BASELINE)
	/* HardFault is used for all fault conditions on ARMv6-M. */
	#elif defined(CONFIG_ARMV7_M_ARMV8_M_MAINLINE)
	GTEXT(__mpu_fault)
	GTEXT(__bus_fault)
	GTEXT(__usage_fault)
	#if defined(CONFIG_ARM_SECURE_FIRMWARE)
	GTEXT(__secure_fault)
	#endif /* CONFIG_ARM_SECURE_FIRMWARE*/
	GTEXT(__debug_monitor)
	#else
	#error Unknown ARM architecture
	#endif /* CONFIG_ARMV6_M_ARMV8_M_BASELINE */
	GTEXT(__reserved)

	/**
	*
	* @brief Fault handler installed in the fault and reserved vectors
	*
	* Entry point for the hard fault, MPU fault, bus fault, usage fault, debug
	* monitor and reserved exceptions.
	*
	* Save the values of the MSP and PSP in r0 and r1 respectively, so the first
	* and second parameters to the _Fault() C function that will handle the rest.
	* This has to be done because at this point we do not know if the fault
	* happened while handling an exception or not, and thus the ESF could be on
	* either stack. _Fault() will find out where the ESF resides.
	*
	* Provides these symbols:
	*
	* __hard_fault
	* __mpu_fault
	* __bus_fault
	* __usage_fault
	* __secure_fault
	* __debug_monitor
	* __reserved
	*/

	SECTION_SUBSEC_FUNC(TEXT,__fault,__hard_fault)
	#if defined(CONFIG_ARMV6_M_ARMV8_M_BASELINE)
	/* HardFault is used for all fault conditions on ARMv6-M. */
	#elif defined(CONFIG_ARMV7_M_ARMV8_M_MAINLINE)
	SECTION_SUBSEC_FUNC(TEXT,__fault,__mpu_fault)
	SECTION_SUBSEC_FUNC(TEXT,__fault,__bus_fault)
	SECTION_SUBSEC_FUNC(TEXT,__fault,__usage_fault)
	#if defined(CONFIG_ARM_SECURE_FIRMWARE)
	SECTION_SUBSEC_FUNC(TEXT,__fault,__secure_fault)
	#endif /* CONFIG_ARM_SECURE_FIRMWARE */
	SECTION_SUBSEC_FUNC(TEXT,__fault,__debug_monitor)
	#else
	#error Unknown ARM architecture
	#endif /* CONFIG_ARMV6_M_ARMV8_M_BASELINE */
	SECTION_SUBSEC_FUNC(TEXT,__fault,__reserved)

	#if defined(CONFIG_ARMV6_M_ARMV8_M_BASELINE)
	/* force unlock interrupts */
	cpsie i

	/* Use EXC_RETURN state to find out if stack frame is on the
	* MSP or PSP
	*/
	ldr r0, =0x4
	mov r1, lr
	tst r1, r0
	beq _stack_frame_msp
	mrs r0, PSP
	bne _stack_frame_endif
	_stack_frame_msp:
	mrs r0, MSP
	_stack_frame_endif:

	#elif defined(CONFIG_ARMV7_M_ARMV8_M_MAINLINE)
	/* force unlock interrupts */
	eors.n r0, r0
	msr BASEPRI, r0

	#if !defined(CONFIG_ARM_SECURE_FIRMWARE) && \
	!defined(CONFIG_ARM_NONSECURE_FIRMWARE)
	/* this checks to see if we are in a nested exception */
	ldr ip, =_SCS_ICSR
	ldr ip, [ip]
	ands.w ip, #_SCS_ICSR_RETTOBASE

	ite eq /* is the RETTOBASE bit zero ? */
	mrseq r0, MSP /* if so, we're not returning to thread mode,
	* thus this is a nested exception: the stack
	* frame is on the MSP */
	mrsne r0, PSP /* if not, we are returning to thread mode, thus
	* this is not a nested exception: the stack
	* frame is on the PSP */
	#else
	/* RETTOBASE flag is not banked between security states.
	* Therefore, we cannot rely on this flag, to obtain the SP
	* of the current security state.
	* Instead, we use the EXC_RETURN.SPSEL flag.
	*/
	ldr r0, =0x4
	mov r1, lr
	tst r1, r0
	beq _s_stack_frame_msp
	mrs r0, PSP
	bne _s_stack_frame_endif
	_s_stack_frame_msp:
	mrs r0, MSP
	_s_stack_frame_endif:
	#endif /* CONFIG_ARM_SECURE_FIRMWARE \|\| CONFIG_ARM_NONSECURE_FIRMWARE */
	#else
	#error Unknown ARM architecture
	#endif /* CONFIG_ARMV6_M_ARMV8_M_BASELINE */

	#if defined(CONFIG_ARM_SECURE_FIRMWARE) \|\| \
	defined(CONFIG_ARM_NONSECURE_FIRMWARE)
	/* The stack pointer that is retrieved above, points to the stack,
	* where the exception is taken. However, the exeption may have
	* occurred in the alternative security state.
	*
	* To determine this we need to inspect the EXC_RETURN value
	* located in the LR. Therefore, we supply the LR value as an
	* argument to the fault handler.
	*/
	mov r1, lr
	#endif /* CONFIG_ARM_SECURE_FIRMWARE \|\| CONFIG_ARM_NONSECURE_FIRMWARE */
	push {r0, lr}
	bl _Fault

	pop {r0, pc}

	.end