rt-thread/libcpu/arm/cortex-m33/context_rvds.S

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2019-10-29 09:45:17 +08:00
;/*
;* Copyright (c) 2006-2018, RT-Thread Development Team
;*
;* SPDX-License-Identifier: Apache-2.0
;*
; * Change Logs:
; * Date Author Notes
; * 2009-01-17 Bernard first version.
; * 2012-01-01 aozima support context switch load/store FPU register.
; * 2013-06-18 aozima add restore MSP feature.
; * 2013-06-23 aozima support lazy stack optimized.
; * 2018-07-24 aozima enhancement hard fault exception handler.
; */
;/**
; * @addtogroup cortex-m33
; */
;/*@{*/
SCB_VTOR EQU 0xE000ED08 ; Vector Table Offset Register
NVIC_INT_CTRL EQU 0xE000ED04 ; interrupt control state register
NVIC_SYSPRI2 EQU 0xE000ED20 ; system priority register (2)
NVIC_PENDSV_PRI EQU 0xFFFF0000 ; PendSV and SysTick priority value (lowest)
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NVIC_PENDSVSET EQU 0x10000000 ; value to trigger PendSV exception
AREA |.text|, CODE, READONLY, ALIGN=2
THUMB
REQUIRE8
PRESERVE8
IMPORT rt_thread_switch_interrupt_flag
IMPORT rt_interrupt_from_thread
IMPORT rt_interrupt_to_thread
IMPORT rt_trustzone_current_context
IMPORT rt_trustzone_context_load
IMPORT rt_trustzone_context_store
;/*
; * rt_base_t rt_hw_interrupt_disable();
; */
rt_hw_interrupt_disable PROC
EXPORT rt_hw_interrupt_disable
MRS r0, PRIMASK
CPSID I
BX LR
ENDP
;/*
; * void rt_hw_interrupt_enable(rt_base_t level);
; */
rt_hw_interrupt_enable PROC
EXPORT rt_hw_interrupt_enable
MSR PRIMASK, r0
BX LR
ENDP
;/*
; * void rt_hw_context_switch(rt_uint32 from, rt_uint32 to);
; * r0 --> from
; * r1 --> to
; */
rt_hw_context_switch_interrupt
EXPORT rt_hw_context_switch_interrupt
rt_hw_context_switch PROC
EXPORT rt_hw_context_switch
; set rt_thread_switch_interrupt_flag to 1
LDR r2, =rt_thread_switch_interrupt_flag
LDR r3, [r2]
CMP r3, #1
BEQ _reswitch
MOV r3, #1
STR r3, [r2]
LDR r2, =rt_interrupt_from_thread ; set rt_interrupt_from_thread
STR r0, [r2]
_reswitch
LDR r2, =rt_interrupt_to_thread ; set rt_interrupt_to_thread
STR r1, [r2]
LDR r0, =NVIC_INT_CTRL ; trigger the PendSV exception (causes context switch)
LDR r1, =NVIC_PENDSVSET
STR r1, [r0]
BX LR
ENDP
; r0 --> switch from thread stack
; r1 --> switch to thread stack
; psr, pc, lr, r12, r3, r2, r1, r0 are pushed into [from] stack
PendSV_Handler PROC
EXPORT PendSV_Handler
; disable interrupt to protect context switch
MRS r2, PRIMASK ; R2 = PRIMASK
CPSID I ; disable all interrupt
; get rt_thread_switch_interrupt_flag
LDR r0, =rt_thread_switch_interrupt_flag ; r0 = &rt_thread_switch_interrupt_flag
LDR r1, [r0] ; r1 = *r1
CMP r1, #0x00 ; compare r1 == 0x00
BNE schedule
MSR PRIMASK, r2 ; if r1 == 0x00, do msr PRIMASK, r2
BX lr ; if r1 == 0x00, do bx lr
schedule
PUSH {r2} ; store interrupt state
; clear rt_thread_switch_interrupt_flag to 0
MOV r1, #0x00 ; r1 = 0x00
STR r1, [r0] ; *r0 = r1
; skip register save at the first time
LDR r0, =rt_interrupt_from_thread ; r0 = &rt_interrupt_from_thread
LDR r1, [r0] ; r1 = *r0
CBZ r1, switch_to_thread ; if r1 == 0, goto switch_to_thread
; Whether TrustZone thread stack exists
LDR r1, =rt_trustzone_current_context ; r1 = &rt_secure_current_context
LDR r1, [r1] ; r1 = *r1
CBZ r1, contex_ns_store ; if r1 == 0, goto contex_ns_store
;call TrustZone fun, Save TrustZone stack
STMFD sp!, {r0-r1, lr} ; push register
MOV r0, r1 ; r0 = rt_secure_current_context
BL rt_trustzone_context_store ; call TrustZone store fun
LDMFD sp!, {r0-r1, lr} ; pop register
; check break from TrustZone
MOV r2, lr ; r2 = lr
TST r2, #0x40 ; if EXC_RETURN[6] is 1, TrustZone stack was used
BEQ contex_ns_store ; if r2 & 0x40 == 0, goto contex_ns_store
; push PSPLIM CONTROL PSP LR current_context to stack
MRS r3, psplim ; r3 = psplim
MRS r4, control ; r4 = control
MRS r5, psp ; r5 = psp
STMFD r5!, {r1-r4} ; push to thread stack
; update from thread stack pointer
LDR r0, [r0] ; r0 = rt_thread_switch_interrupt_flag
STR r5, [r0] ; *r0 = r5
b switch_to_thread ; goto switch_to_thread
contex_ns_store
MRS r1, psp ; get from thread stack pointer
#if defined (__VFP_FP__) && !defined(__SOFTFP__)
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TST lr, #0x10 ; if(!EXC_RETURN[4])
VSTMFDEQ r1!, {d8 - d15} ; push FPU register s16~s31
#endif
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STMFD r1!, {r4 - r11} ; push r4 - r11 register
LDR r2, =rt_trustzone_current_context ; r2 = &rt_secure_current_context
LDR r2, [r2] ; r2 = *r2
MOV r3, lr ; r3 = lr
MRS r4, psplim ; r4 = psplim
MRS r5, control ; r5 = control
STMFD r1!, {r2-r5} ; push to thread stack
LDR r0, [r0]
STR r1, [r0] ; update from thread stack pointer
switch_to_thread
LDR r1, =rt_interrupt_to_thread
LDR r1, [r1]
LDR r1, [r1] ; load thread stack pointer
; update current TrustZone context
LDMFD r1!, {r2-r5} ; pop thread stack
MSR psplim, r4 ; psplim = r4
MSR control, r5 ; control = r5
MOV lr, r3 ; lr = r3
LDR r6, =rt_trustzone_current_context ; r6 = &rt_secure_current_context
STR r2, [r6] ; *r6 = r2
MOV r0, r2 ; r0 = r2
; Whether TrustZone thread stack exists
CBZ r0, contex_ns_load ; if r0 == 0, goto contex_ns_load
PUSH {r1, r3} ; push lr, thread_stack
BL rt_trustzone_context_load ; call TrustZone load fun
POP {r1, r3} ; pop lr, thread_stack
MOV lr, r3 ; lr = r1
TST r3, #0x40 ; if EXC_RETURN[6] is 1, TrustZone stack was used
BEQ contex_ns_load ; if r1 & 0x40 == 0, goto contex_ns_load
B pendsv_exit
contex_ns_load
LDMFD r1!, {r4 - r11} ; pop r4 - r11 register
#if defined (__VFP_FP__) && !defined(__SOFTFP__)
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TST lr, #0x10 ; if(!EXC_RETURN[4])
VLDMFDEQ r1!, {d8 - d15} ; pop FPU register s16~s31
#endif
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pendsv_exit
MSR psp, r1 ; update stack pointer
; restore interrupt
POP {r2}
MSR PRIMASK, r2
BX lr
ENDP
;/*
; * void rt_hw_context_switch_to(rt_uint32 to);
; * r0 --> to
; * this fucntion is used to perform the first thread switch
; */
rt_hw_context_switch_to PROC
EXPORT rt_hw_context_switch_to
; set to thread
LDR r1, =rt_interrupt_to_thread
STR r0, [r1]
#if defined (__VFP_FP__) && !defined(__SOFTFP__)
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; CLEAR CONTROL.FPCA
MRS r2, CONTROL ; read
BIC r2, #0x04 ; modify
MSR CONTROL, r2 ; write-back
#endif
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; set from thread to 0
LDR r1, =rt_interrupt_from_thread
MOV r0, #0x0
STR r0, [r1]
; set interrupt flag to 1
LDR r1, =rt_thread_switch_interrupt_flag
MOV r0, #1
STR r0, [r1]
; set the PendSV and SysTick exception priority
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LDR r0, =NVIC_SYSPRI2
LDR r1, =NVIC_PENDSV_PRI
LDR.W r2, [r0,#0x00] ; read
ORR r1,r1,r2 ; modify
STR r1, [r0] ; write-back
; trigger the PendSV exception (causes context switch)
LDR r0, =NVIC_INT_CTRL
LDR r1, =NVIC_PENDSVSET
STR r1, [r0]
; restore MSP
LDR r0, =SCB_VTOR
LDR r0, [r0]
LDR r0, [r0]
MSR msp, r0
; enable interrupts at processor level
CPSIE F
CPSIE I
; ensure PendSV exception taken place before subsequent operation
DSB
ISB
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; never reach here!
ENDP
; compatible with old version
rt_hw_interrupt_thread_switch PROC
EXPORT rt_hw_interrupt_thread_switch
BX lr
ENDP
IMPORT rt_hw_hard_fault_exception
EXPORT HardFault_Handler
HardFault_Handler PROC
; get current context
MRS r0, msp ;get fault context from handler
TST lr, #0x04 ;if(!EXC_RETURN[2])
BEQ get_sp_done
MRS r0, psp ;get fault context from thread
get_sp_done
STMFD r0!, {r4 - r11} ; push r4 - r11 register
LDR r2, =rt_trustzone_current_context ; r2 = &rt_secure_current_context
LDR r2, [r2] ; r2 = *r2
MOV r3, lr ; r3 = lr
MRS r4, psplim ; r4 = psplim
MRS r5, control ; r5 = control
STMFD r0!, {r2-r5} ; push to thread stack
STMFD r0!, {lr} ; push exec_return register
TST lr, #0x04 ; if(!EXC_RETURN[2])
BEQ update_msp
MSR psp, r0 ; update stack pointer to PSP
B update_done
update_msp
MSR msp, r0 ; update stack pointer to MSP
update_done
PUSH {lr}
BL rt_hw_hard_fault_exception
POP {lr}
ORR lr, lr, #0x04
BX lr
ENDP
ALIGN 4
END