;/**************************************************************************//**
; * @file     wb_init.s
; * @brief    N9H20 series startup code
; *
; * SPDX-License-Identifier: Apache-2.0
; * @copyright (C) 2020 Nuvoton Technology Corp. All rights reserved.
; *****************************************************************************/

	AREA WB_INIT, CODE, READONLY

;--------------------------------------------
; Mode bits and interrupt flag (I&F) defines
;--------------------------------------------
USR_MODE	EQU		0x10
FIQ_MODE	EQU		0x11
IRQ_MODE	EQU		0x12
SVC_MODE	EQU		0x13
ABT_MODE	EQU		0x17
UDF_MODE	EQU		0x1B
SYS_MODE	EQU		0x1F

I_BIT		EQU		0x80
F_BIT		EQU		0x40

;----------------------------
; System / User Stack Memory
;----------------------------
 IF :DEF:N9H20K1
RAM_Limit       EQU     0x200000          	; For unexpanded hardware board
 ENDIF
 
 IF :DEF:N9H20K3
RAM_Limit       EQU     0x800000          	; For unexpanded hardware board
 ENDIF 
 
 IF :DEF:N9H20K5
RAM_Limit       EQU     0x2000000          	; For unexpanded hardware board
 ENDIF 
USR_Stack		EQU		RAM_Limit
SVC_Stack       		EQU     	(USR_Stack-1024)      ; SVC stack at top of memory
FIQ_Stack       		EQU     	(SVC_Stack-2*1024)     ; followed by IRQ stack
IRQ_Stack       		EQU     	(FIQ_Stack-1024)       ; followed by IRQ stack
Abort_Stack		EQU		(IRQ_Stack-1024)
UND_Stack		EQU		(Abort_Stack-1024)




	ENTRY
	EXPORT  Reset_Go
	
Reset_Go

;--------------------------------
; Initial Stack Pointer register, keep them here to make .axf work if NAND loader not execute first
;--------------------------------
;INIT_STACK 
 MSR	CPSR_c, #UDF_MODE | I_BIT | F_BIT
 LDR     SP, =UND_Stack

 MSR	CPSR_c, #ABT_MODE | I_BIT | F_BIT
 LDR     SP, =Abort_Stack

 MSR	CPSR_c, #IRQ_MODE | I_BIT | F_BIT
 LDR     SP, =IRQ_Stack

 MSR	CPSR_c, #FIQ_MODE | I_BIT | F_BIT
 LDR     SP, =FIQ_Stack

 MSR	CPSR_c, #SYS_MODE | I_BIT | F_BIT
 LDR     SP, =USR_Stack

 MSR	CPSR_c, #SVC_MODE | I_BIT | F_BIT
 LDR     SP, =SVC_Stack


;------------------------------------------------------
; Set the normal exception vector of CP15 control bit    
;------------------------------------------------------    
	MRC	p15, 0, r0 , c1, c0   	; r0 := cp15 register 1
	BIC r0, r0, #0x2000		; Clear bit13 in r1
	MCR p15, 0, r0 , c1, c0     ; cp15 register 1 := r0 

	IMPORT	__main
;-----------------------------
;	enter the C code
;-----------------------------	
	B   __main

	END