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rtx/TARGET_CORTEX_A/TOOLCHAIN_IAR/HAL_CA9_asm.s
- Committer:
- mbed_official
- Date:
- 2016-02-18
- Revision:
- 103:5a85840ab54e
File content as of revision 103:5a85840ab54e:
/*----------------------------------------------------------------------------
* RL-ARM - RTX
*----------------------------------------------------------------------------
* Name: HAL_CA9.c
* Purpose: Hardware Abstraction Layer for Cortex-A9
* Rev.: 8 April 2015
*----------------------------------------------------------------------------
*
* Copyright (c) 2012 - 2015 ARM Limited
* All rights reserved.
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* - Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* - Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* - Neither the name of ARM nor the names of its contributors may be used
* to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL COPYRIGHT HOLDERS AND CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*---------------------------------------------------------------------------*/
PUBLIC rt_set_PSP
PUBLIC rt_get_PSP
PUBLIC _alloc_box
PUBLIC _free_box
PUBLIC SWI_Handler
PUBLIC PendSV_Handler
PUBLIC OS_Tick_Handler
/* macro defines form rt_HAL_CA.h */
#define CPSR_T_BIT 0x20
#define CPSR_I_BIT 0x80
#define CPSR_F_BIT 0x40
#define MODE_USR 0x10
#define MODE_FIQ 0x11
#define MODE_IRQ 0x12
#define MODE_SVC 0x13
#define MODE_ABT 0x17
#define MODE_UND 0x1B
#define MODE_SYS 0x1F
/* macro defines form rt_TypeDef.h */
#define TCB_TID 3 /* 'task id' offset */
#define TCB_STACKF 37 /* 'stack_frame' offset */
#ifndef __LARGE_PRIV_STACK
#define TCB_TSTACK 40 /* 'tsk_stack' offset */
#else
#define TCB_TSTACK 44 /* 'tsk_stack' offset for LARGE_STACK */
#endif
IMPORT rt_alloc_box
IMPORT rt_free_box
IMPORT os_tsk
IMPORT GICInterface_BASE
IMPORT rt_pop_req
IMPORT os_tick_irqack
IMPORT rt_systick
SECTION `.text`:CODE:ROOT(2)
/*----------------------------------------------------------------------------
* Functions
*---------------------------------------------------------------------------*/
//For A-class, set USR/SYS stack
//__asm void rt_set_PSP (U32 stack) {
rt_set_PSP:
ARM
MRS R1, CPSR
CPS #MODE_SYS ;no effect in USR mode
ISB
MOV SP, R0
MSR CPSR_c, R1 ;no effect in USR mode
ISB
BX LR
//}
//For A-class, get USR/SYS stack
//__asm U32 rt_get_PSP (void) {
rt_get_PSP:
ARM
MRS R1, CPSR
CPS #MODE_SYS ;no effect in USR mode
ISB
MOV R0, SP
MSR CPSR_c, R1 ;no effect in USR mode
ISB
BX LR
//}
/*--------------------------- _alloc_box ------------------------------------*/
//__asm void *_alloc_box (void *box_mem) {
_alloc_box:
/* Function wrapper for Unprivileged/Privileged mode. */
ARM
LDR R12,=(rt_alloc_box)
MRS R2, CPSR
LSLS R2, R2,#28
BXNE R12
SVC 0
BX LR
//}
/*--------------------------- _free_box -------------------------------------*/
//__asm int _free_box (void *box_mem, void *box) {
_free_box:
/* Function wrapper for Unprivileged/Privileged mode. */
LDR R12,=(rt_free_box)
MRS R2, CPSR
LSLS R2, R2,#28
BXNE R12
SVC 0
BX LR
//}
/*-------------------------- SWI_Handler -----------------------------------*/
//#pragma push
//#pragma arm
//__asm void SWI_Handler (void) {
SWI_Handler:
PRESERVE8
ARM
IMPORT rt_tsk_lock
IMPORT rt_tsk_unlock
IMPORT SVC_Count
IMPORT SVC_Table
IMPORT rt_stk_check
IMPORT FPUEnable
IMPORT scheduler_suspended ; flag set by rt_suspend, cleared by rt_resume, read by SWI_Handler
Mode_SVC EQU 0x13
SRSDB #Mode_SVC! ; Push LR_SVC and SPRS_SVC onto SVC mode stack
STR R4,[SP,#-0x4]! ; Push R4 so we can use it as a temp
MRS R4,SPSR ; Get SPSR
TST R4,#CPSR_T_BIT ; Check Thumb Bit
LDRNEH R4,[LR,#-2] ; Thumb: Load Halfword
BICNE R4,R4,#0xFF00 ; Extract SVC Number
LDREQ R4,[LR,#-4] ; ARM: Load Word
BICEQ R4,R4,#0xFF000000 ; Extract SVC Number
/* Lock out systick and re-enable interrupts */
STMDB SP!,{R0-R3,R12,LR}
AND R12, SP, #4 ; Ensure stack is 8-byte aligned
SUB SP, SP, R12 ; Adjust stack
STMDB SP!,{R12, LR} ; Store stack adjustment and dummy LR to SVC stack
BLX rt_tsk_lock
CPSIE i
LDMIA SP!,{R12,LR} ; Get stack adjustment & discard dummy LR
ADD SP, SP, R12 ; Unadjust stack
LDMIA SP!,{R0-R3,R12,LR}
CMP R4,#0
BNE SVC_User
MRS R4,SPSR
STR R4,[SP,#-0x4]! ; Push R4 so we can use it as a temp
AND R4, SP, #4 ; Ensure stack is 8-byte aligned
SUB SP, SP, R4 ; Adjust stack
STMDB SP!,{R4, LR} ; Store stack adjustment and dummy LR
BLX R12
LDMIA SP!,{R4, LR} ; Get stack adjustment & discard dummy LR
ADD SP, SP, R4 ; Unadjust stack
LDR R4,[SP],#0x4 ; Restore R4
MSR SPSR_CXSF,R4
/* Here we will be in SVC mode (even if coming in from PendSV_Handler or OS_Tick_Handler) */
Sys_Switch:
LDR LR,=(os_tsk)
LDMIA LR,{R4,LR} ; os_tsk.run, os_tsk.new
CMP R4,LR
BNE switching
STMDB SP!,{R0-R3,R12,LR}
AND R12, SP, #4 ; Ensure stack is 8-byte aligned
SUB SP, SP, R12 ; Adjust stack
STMDB SP!,{R12,LR} ; Store stack adjustment and dummy LR to SVC stack
CPSID i
; Do not unlock scheduler if it has just been suspended by rt_suspend()
LDR R1,=scheduler_suspended
LDRB R0, [R1]
CMP R0, #1
BEQ dont_unlock
BLX rt_tsk_unlock
dont_unlock:
LDMIA SP!,{R12,LR} ; Get stack adjustment & discard dummy LR
ADD SP, SP, R12 ; Unadjust stack
LDMIA SP!,{R0-R3,R12,LR}
LDR R4,[SP],#0x4
RFEFD SP! ; Return from exception, no task switch
switching:
CLREX
CMP R4,#0
ADDEQ SP,SP,#12 ; Original R4, LR & SPSR do not need to be popped when we are paging in a different task
BEQ SVC_Next ; Runtask deleted?
STMDB SP!,{R8-R11} //R4 and LR already stacked
MOV R10,R4 ; Preserve os_tsk.run
MOV R11,LR ; Preserve os_tsk.new
ADD R8,SP,#16 ; Unstack R4,LR
LDMIA R8,{R4,LR}
SUB SP,SP,#4 ; Make space on the stack for the next instn
STMIA SP,{SP}^ ; Put User SP onto stack
LDR R8,[SP],#0x4 ; Pop User SP into R8
MRS R9,SPSR
STMDB R8!,{R9} ; User CPSR
STMDB R8!,{LR} ; User PC
STMDB R8,{LR}^ ; User LR
SUB R8,R8,#4 ; No writeback for store of User LR
STMDB R8!,{R0-R3,R12} ; User R0-R3,R12
MOV R3,R10 ; os_tsk.run
MOV LR,R11 ; os_tsk.new
LDMIA SP!,{R9-R12}
ADD SP,SP,#12 ; Fix up SP for unstack of R4, LR & SPSR
STMDB R8!,{R4-R7,R9-R12} ; User R4-R11
//If applicable, stack VFP/NEON state
MRC p15,0,R1,c1,c0,2 ; VFP/NEON access enabled? (CPACR)
AND R2,R1,#0x00F00000
CMP R2,#0x00F00000
BNE no_outgoing_vfp
VMRS R2,FPSCR
STMDB R8!,{R2,R4} ; Push FPSCR, maintain 8-byte alignment
//IF {TARGET_FEATURE_EXTENSION_REGISTER_COUNT} == 32
VSTMDB R8!,{D0-D15}
VSTMDB R8!,{D16-D31}
LDRB R2,[R3,#TCB_STACKF] ; Record in TCB that NEON/D32 state is stacked
ORR R2,R2,#4
STRB R2,[R3,#TCB_STACKF]
//ENDIF
no_outgoing_vfp:
STR R8,[R3,#TCB_TSTACK]
MOV R4,LR
STR R4,[SP,#-0x4]! ; Push R4 so we can use it as a temp
AND R4, SP, #4 ; Ensure stack is 8-byte aligned
SUB SP, SP, R4 ; Adjust stack
STMDB SP!,{R4, LR} ; Store stack adjustment and dummy LR to SVC stack
BLX rt_stk_check
LDMIA SP!,{R4, LR} ; Get stack adjustment & discard dummy LR
ADD SP, SP, R4 ; Unadjust stack
LDR R4,[SP],#0x4 ; Restore R4
MOV LR,R4
SVC_Next: //R4 == os_tsk.run, LR == os_tsk.new, R0-R3, R5-R12 corruptible
LDR R1,=(os_tsk) ; os_tsk.run = os_tsk.new
STR LR,[R1]
LDRB R1,[LR,#TCB_TID] ; os_tsk.run->task_id
LSL R1,R1,#8 ; Store PROCID
MCR p15,0,R1,c13,c0,1 ; Write CONTEXTIDR
LDR R0,[LR,#TCB_TSTACK] ; os_tsk.run->tsk_stack
//Does incoming task have VFP/NEON state in stack?
LDRB R3,[LR,#TCB_STACKF]
ANDS R3, R3, #0x6
MRC p15,0,R1,c1,c0,2 ; Read CPACR
BICEQ R1,R1,#0x00F00000 ; Disable VFP/NEON access if incoming task does not have stacked VFP/NEON state
ORRNE R1,R1,#0x00F00000 ; Enable VFP/NEON access if incoming task does have stacked VFP/NEON state
MCR p15,0,R1,c1,c0,2 ; Write CPACR
BEQ no_incoming_vfp
ISB ; We only need the sync if we enabled, otherwise we will context switch before next VFP/NEON instruction anyway
//IF {TARGET_FEATURE_EXTENSION_REGISTER_COUNT} == 32
VLDMIA R0!,{D16-D31}
//ENDIF
VLDMIA R0!,{D0-D15}
LDR R2,[R0]
VMSR FPSCR,R2
ADD R0,R0,#8
no_incoming_vfp:
LDR R1,[R0,#60] ; Restore User CPSR
MSR SPSR_CXSF,R1
LDMIA R0!,{R4-R11} ; Restore User R4-R11
ADD R0,R0,#4 ; Restore User R1-R3,R12
LDMIA R0!,{R1-R3,R12}
LDMIA R0,{LR}^ ; Restore User LR
ADD R0,R0,#4 ; No writeback for load to user LR
LDMIA R0!,{LR} ; Restore User PC
ADD R0,R0,#4 ; Correct User SP for unstacked user CPSR
STR R0,[SP,#-0x4]! ; Push R0 onto stack
LDMIA SP,{SP}^ ; Get R0 off stack into User SP
ADD SP,SP,#4 ; Put SP back
LDR R0,[R0,#-32] ; Restore R0
STMDB SP!,{R0-R3,R12,LR}
AND R12, SP, #4 ; Ensure stack is 8-byte aligned
SUB SP, SP, R12 ; Adjust stack
STMDB sp!,{R12, LR} ; Store stack adjustment and dummy LR to SVC stack
CPSID i
BLX rt_tsk_unlock
LDMIA sp!,{R12, LR} ; Get stack adjustment & discard dummy LR
ADD SP, SP, R12 ; Unadjust stack
LDMIA SP!,{R0-R3,R12,LR}
MOVS PC,LR ; Return from exception
/*------------------- User SVC -------------------------------*/
SVC_User:
LDR R12,=SVC_Count
LDR R12,[R12]
CMP R4,R12 ; Check for overflow
BHI SVC_Done
LDR R12,=SVC_Table-4
LDR R12,[R12,R4,LSL #2] ; Load SVC Function Address
MRS R4,SPSR ; Save SPSR
STR R4,[SP,#-0x4]! ; Push R4 so we can use it as a temp
AND R4, SP, #4 ; Ensure stack is 8-byte aligned
SUB SP, SP, R4 ; Adjust stack
STMDB SP!,{R4, LR} ; Store stack adjustment and dummy LR
BLX R12 ; Call SVC Function
LDMIA SP!,{R4, LR} ; Get stack adjustment & discard dummy LR
ADD SP, SP, R4 ; Unadjust stack
LDR R4,[SP],#0x4 ; Restore R4
MSR SPSR_CXSF,R4 ; Restore SPSR
SVC_Done:
STMDB sp!,{R0-R3,R12,LR}
STR R4,[sp,#-0x4]! ; Push R4 so we can use it as a temp
AND R4, SP, #4 ; Ensure stack is 8-byte aligned
SUB SP, SP, R4 ; Adjust stack
STMDB SP!,{R4, LR} ; Store stack adjustment and dummy LR
CPSID i
BLX rt_tsk_unlock
LDMIA SP!,{R4, LR} ; Get stack adjustment & discard dummy LR
ADD SP, SP, R4 ; Unadjust stack
LDR R4,[SP],#0x4 ; Restore R4
LDMIA SP!,{R0-R3,R12,LR}
LDR R4,[SP],#0x4
RFEFD SP! ; Return from exception
//}
//#pragma pop
//#pragma push
//#pragma arm
//__asm void PendSV_Handler (U32 IRQn) {
PendSV_Handler:
ARM
IMPORT rt_tsk_lock
IMPORT IRQNestLevel ; Flag indicates whether inside an ISR, and the depth of nesting. 0 = not in ISR.
IMPORT seen_id0_active ; Flag used to workaround GIC 390 errata 733075 - set in startup_Renesas_RZ_A1.s
ADD SP,SP,#8 //fix up stack pointer (R0 has been pushed and will never be popped, R1 was pushed for stack alignment)
//Disable systick interrupts, then write EOIR. We want interrupts disabled before we enter the context switcher.
STMDB SP!,{R0, R1}
BLX rt_tsk_lock
LDMIA SP!,{R0, R1}
LDR R1,=(GICInterface_BASE)
LDR R1, [R1, #0]
STR R0, [R1, #0x10]
; If it was interrupt ID0, clear the seen flag, otherwise return as normal
CMP R0, #0
LDREQ R1, =seen_id0_active
STRBEQ R0, [R1] ; Clear the seen flag, using R0 (which is 0), to save loading another register
LDR R0, =IRQNestLevel ; Get address of nesting counter
LDR R1, [R0]
SUB R1, R1, #1 ; Decrement nesting counter
STR R1, [R0]
BLX (rt_pop_req)
LDMIA SP!,{R1, LR} ; Get stack adjustment & discard dummy LR
ADD SP, SP, R1 ; Unadjust stack
LDR R0,[SP,#24]
MSR SPSR_CXSF,R0
LDMIA SP!,{R0-R3,R12} ; Leave SPSR & LR on the stack
STR R4,[SP,#-0x4]!
B Sys_Switch
//}
//#pragma pop
//#pragma push
//#pragma arm
//__asm void OS_Tick_Handler (U32 IRQn) {
OS_Tick_Handler:
ARM
IMPORT rt_tsk_lock
IMPORT IRQNestLevel ; Flag indicates whether inside an ISR, and the depth of nesting. 0 = not in ISR.
IMPORT seen_id0_active ; Flag used to workaround GIC 390 errata 733075 - set in startup_Renesas_RZ_A1.s
ADD SP,SP,#8 //fix up stack pointer (R0 has been pushed and will never be popped, R1 was pushed for stack alignment)
STMDB SP!,{R0, R1}
BLX rt_tsk_lock
LDMIA SP!,{R0, R1}
LDR R1, =(GICInterface_BASE)
LDR R1, [R1, #0]
STR R0, [R1, #0x10]
; If it was interrupt ID0, clear the seen flag, otherwise return as normal
CMP R0, #0
LDREQ R1, =seen_id0_active
STRBEQ R0, [R1] ; Clear the seen flag, using R0 (which is 0), to save loading another register
LDR R0, =IRQNestLevel ; Get address of nesting counter
LDR R1, [R0]
SUB R1, R1, #1 ; Decrement nesting counter
STR R1, [R0]
BLX (os_tick_irqack)
BLX (rt_systick)
LDMIA SP!,{R1, LR} ; Get stack adjustment & discard dummy LR
ADD SP, SP, R1 ; Unadjust stack
LDR R0,[SP,#24]
MSR SPSR_CXSF,R0
LDMIA SP!,{R0-R3,R12} ; Leave SPSR & LR on the stack
STR R4,[SP,#-0x4]!
B Sys_Switch
//}
//#pragma pop
END
/*----------------------------------------------------------------------------
* end of file
*---------------------------------------------------------------------------*/