?? 2410init.s
字號:
;
; Copyright (c) Microsoft Corporation. All rights reserved.
;
;
; Use of this source code is subject to the terms of the Microsoft end-user
; license agreement (EULA) under which you licensed this SOFTWARE PRODUCT.
; If you did not accept the terms of the EULA, you are not authorized to use
; this source code. For a copy of the EULA, please see the LICENSE.RTF on your
; install media.
;
;
; Module Name: 2410init.s
;
; Start up code for NAND bootloader.
;
;
;=========================================
; NAME: 2410INIT.S
; DESC: C start up codes
; Configure memory, ISR ,stacks
; Initialize C-variables
; HISTORY:
; 2002.02.25:kwtark: ver 0.0
; 2002.03.20:purnnamu: Add some functions for testing STOP,POWER_OFF mode
;=========================================
INCLUDE option.inc
INCLUDE memcfg.inc
INCLUDE 2410addr.inc
IMPORT Port_Init
GBLL NOT_MIN_CODE
NOT_MIN_CODE SETL {FALSE}
BIT_SELFREFRESH EQU (1<<22)
;Pre-defined constants
USERMODE EQU 0x10
FIQMODE EQU 0x11
IRQMODE EQU 0x12
SVCMODE EQU 0x13
ABORTMODE EQU 0x17
UNDEFMODE EQU 0x1b
MODEMASK EQU 0x1f
NOINT EQU 0xc0
SDRAM_CLEAR EQU 0x0
SDRAM_TEST EQU 0x12345678
DELAY EQU 0x200
;The location of stacks
UserStack EQU (_STACK_BASEADDRESS-0x3800) ;0x31ff4800 ~
SVCStack EQU (_STACK_BASEADDRESS-0x2800) ;0x31ff5800 ~ // 256 byte stack
UndefStack EQU (_STACK_BASEADDRESS-0x2400) ;0x31ff5c00 ~
AbortStack EQU (_STACK_BASEADDRESS-0x2000) ;0x31ff6000 ~
IRQStack EQU (_STACK_BASEADDRESS-0x1000) ;0x31ff7000 ~
FIQStack EQU (_STACK_BASEADDRESS-0x0) ;0x31ff8000 ~
_FCLK EQU (203)
R1_iA EQU (1<<31)
R1_nF EQU (1<<30)
; :::::::::::::::::::::::::::::::::::::::::::::
; BEGIN: Power Management
; - - - - - - - - - - - - - - - - - - - - - - -
Mode_USR EQU 0x10
Mode_FIQ EQU 0x11
Mode_IRQ EQU 0x12
Mode_SVC EQU 0x13
Mode_ABT EQU 0x17
Mode_UND EQU 0x1B
Mode_SYS EQU 0x1F
I_Bit EQU 0x80
F_Bit EQU 0x40
; - - - - - - - - - - - - - - - - - - - - - - -
; END: Power Management
; :::::::::::::::::::::::::::::::::::::::::::::
;Check if tasm.exe(armasm -16 ...@ADS 1.0) is used.
GBLL THUMBCODE
[ {CONFIG} = 16
THUMBCODE SETL {TRUE}
CODE32
|
THUMBCODE SETL {FALSE}
]
MACRO
MOV_PC_LR
[ THUMBCODE
bx lr
|
mov pc,lr
]
MEND
MACRO
MOVEQ_PC_LR
[ THUMBCODE
bxeq lr
|
moveq pc,lr
]
MEND
;---------------------------------------------------------------------------
; 4 LED light function
; The LEDs are located below AMD Flash ROM
MACRO
LED_ON $data
LDR r10, =0x56000054
LDR r11, =$data
MOV r11, r11, lsl #4
STR r11, [r10]
MEND
;---------------------------------------------------------------------------
MACRO
$HandlerLabel HANDLER $HandleLabel
$HandlerLabel
sub sp,sp,#4 ;decrement sp(to store jump address)
stmfd sp!,{r0} ;PUSH the work register to stack(lr does't push because it return to original address)
ldr r0,=$HandleLabel;load the address of HandleXXX to r0
ldr r0,[r0] ;load the contents(service routine start address) of HandleXXX
str r0,[sp,#4] ;store the contents(ISR) of HandleXXX to stack
ldmfd sp!,{r0,pc} ;POP the work register and pc(jump to ISR)
MEND
IMPORT |Image$$RO$$Limit| ; End of ROM code (=start of ROM data)
IMPORT |Image$$RW$$Base| ; Base of RAM to initialise
IMPORT |Image$$ZI$$Base| ; Base and limit of area
IMPORT |Image$$ZI$$Limit| ; to zero initialise
IMPORT Main ; The main entry of mon program
AREA Init,CODE,READONLY
ENTRY
;1)The code, which converts to Big-endian, should be in little endian code.
;2)The following little endian code will be compiled in Big-Endian mode.
; The code byte order should be changed as the memory bus width.
;3)The pseudo instruction,DCD can't be used here because the linker generates error.
ASSERT :DEF:ENDIAN_CHANGE
b ResetHandler ; 0x00 Reset
b SelfRefreshAndPowerOff ; 0x04 Undefined
b . ; 0x08 Supervisor
b . ; 0x0c Prefetch Abort
b . ; 0x10 Data Abort
b . ; 0x14 Reserved
b . ; 0x18 IRQ
b . ; 0x1c FIQ
SelfRefreshAndPowerOff
str r1, [r0] ; Enable SDRAM self-refresh
str r3, [r2] ; MISCCR Setting
str r5, [r4] ; Power Off !!
b .
WAKEUP_POWER_OFF
; ldr r2, =0x201000 ; offset into the RAM
; add r2, r2, #0x30000000 ; add physical base
ldr r2, =0x201000 ; offset into the RAM
add r2, r2, #0x30000000 ; add physical base
mov pc, r2 ; & jump to new virtual address (back up Power management stack)
nop
nop
nop
LTORG
;=======
; ENTRY
;=======
ResetHandler
ldr r0,=WTCON ;watch dog disable
ldr r1,=0x0
str r1,[r0]
ldr r0,=INTMSK
ldr r1,=0xffffffff ;all interrupt disable
str r1,[r0]
ldr r0,=INTSUBMSK
ldr r1,=0x7ff ;all sub interrupt disable
str r1,[r0]
ldr r0, = INTMOD
mov r1, #0x0 ; set all interrupt as IRQ (not FIQ)
str r1, [r0]
; :::::::::::::::::::::::::::::::::::::::::::::
; BEGIN: Power Management
; - - - - - - - - - - - - - - - - - - - - - - -
ldr r1, =GSTATUS2 ; Determine Booting Mode
ldr r10, [r1]
tst r10, #0x2
beq %F2 ; if not wakeup from PowerOffmode Skip
; MISCCR setting
LED_ON 0x9
ldr r7, =GPFDAT
; add r7, r7, #GPFDAT
ldr r8, [r7]
orr r8, r8, #0x80
str r8, [r7]
ldr r1, =MISCCR ; MISCCR's Bit 17, 18, 19 -> 0
ldr r0, [r1] ; I don't know why, Just fallow Sample Code.
bic r0, r0, #(7 << 17) ; SCLK0:0->SCLK, SCLK1:0->SCLK, SCKE:L->H
str r0, [r1]
; Set memory control registers
add r0, pc, #SMRDATA - (. + 8)
ldr r1, =BWSCON ; BWSCON Address
add r2, r0, #52 ; End address of SMRDATA
loop10
ldr r3, [r0], #4
str r3, [r1], #4
cmp r2, r0
bne loop10
mov r1, #0x1f00
loop11
subs r1, r1, #1 ; wait until the SelfRefresh is released.
bne loop11
; ldr r2, =0x41000 ; offset into the RAM
; add r2, r2, #0x32000000 ; add physical base
ldr r2, =0x201000 ; offset into the RAM
add r2, r2, #0x30000000 ; add physical base
mov pc, r2 ; & jump to StartUp address
nop
nop
nop
b .
b %F3 ; if wakeup from PowerOff mode
; goto Power-up code.
; Watchdog reset
2
tst r10, #0x4 ; In case of the wake-up from Watchdog reset,
; go to SDRAM start address(0x3000_0000)
beq %F4 ; If not wakeup from Watchdog reset,
; goto Normal Mode.
mov r0, #4
str r0, [r1] ; Clear the GSTATUS2. Because same code is located in memory address.
; Set memory control registers
ldr r0, =SMRDATA
ldr r1, =BWSCON ; BWSCON Address
add r2, r0, #52 ; End address of SMRDATA
loop0
ldr r3, [r0], #4
str r3, [r1], #4
cmp r2, r0
bne loop0
mov r1, #256
loop1
subs r1, r1, #1 ; wait until the SelfRefresh is released.
bne loop1
ldr r2, =0x201000 ; offset into the RAM
add r2, r2, #0x30000000 ; add physical base
mov pc, r2 ; & jump to StartUp address
b .
; Case of Power off reset
3
ldr r1, =MISCCR ; MISCCR's Bit 17, 18, 19 -> 0
ldr r0, [r1] ; I don't know why, Just fallow Sample Code.
bic r0, r0, #(7 << 17) ; SCLK0:0->SCLK, SCLK1:0->SCLK, SCKE:L->H
str r0, [r1]
; - - - - - - - - - - - - - - - - - - - - - - -
; END: Power Management
; :::::::::::::::::::::::::::::::::::::::::::::
4
; configure GPIO pins
bl Port_Init
; CLKDIVN
ldr r0,=CLKDIVN
ldr r1,=0x3 ; 1:2:4
str r1,[r0]
; delay
mov r0, #DELAY
5 subs r0, r0, #1
bne %B5
; MMU_SetAsyncBusMode FCLK:HCLK= 1:2
ands r1, r1, #0x2
beq %F1
mrc p15,0,r0,c1,c0,0
orr r0,r0,#R1_nF:OR:R1_iA
mcr p15,0,r0,c1,c0,0
1
;To reduce PLL lock time, adjust the LOCKTIME register.
ldr r0,=LOCKTIME
ldr r1,=0xffffff
str r1,[r0]
; delay
mov r0, #DELAY
5 subs r0, r0, #1
bne %B5
;Configure MPLL
ldr r0,=MPLLCON
ldr r1,=((0x5c<<12)+(0x4<<4)+0x0) ;Fin=12MHz,Fout=200MHz
str r1,[r0]
; delay
mov r0, #DELAY
5 subs r0, r0, #1
bne %B5
;Configure UPLL
ldr r0, =UPLLCON
ldr r1, =((0x48<<12)+(0x3<<4)+0x2) ;Fin=12MHz, Fout=48MHz
str r1, [r0]
; delay
mov r0, #0x200
5 subs r0, r0, #1
bne %B5
; Configure memory controller
;ldr r0,=SMRDATA
add r0, pc, #SMRDATA - (. + 8)
ldr r1,=BWSCON ;BWSCON Address
add r2, r0, #52 ;End address of SMRDATA
0
ldr r3, [r0], #4
str r3, [r1], #4
cmp r2, r0
bne %B0
BringUpWinCE
;Normal Boot: Clear SDRAM
ldr r1,=SDRAM_CLEAR
ldr r2,=SDRAM_CLEAR
ldr r3,=SDRAM_CLEAR
ldr r4,=SDRAM_CLEAR
ldr r5,=SDRAM_CLEAR
ldr r6,=SDRAM_CLEAR
ldr r7,=SDRAM_CLEAR
ldr r8,=SDRAM_CLEAR
1
ldr r9,=SDRAM_SIZE
ldr r0,=SDRAM_BASE
0
stmia r0!,{r1-r8}
subs r9,r9,#32
bne %B0
; Initialize stacks
ldr sp,=SVCStack ; r13 = 0x33ff5800
;Copy and paste RW data/zero initialized data
ldr r0, =|Image$$RO$$Limit| ; r0 = pointer to ROM data (0x000009bc)
ldr r1, =|Image$$RW$$Base| ; r1 = RAM copy (0x31ff0000)
ldr r3, =|Image$$ZI$$Base| ; r3 = globals (0x31ff0004)
;Zero init base => top of initialised data
cmp r0, r1 ; Check that they are different
beq %F2
1
cmp r1, r3 ; Copy init data
ldrcc r2, [r0], #4 ;--> LDRCC r2, [r0] + ADD r0, r0, #4
strcc r2, [r1], #4 ;--> STRCC r2, [r1] + ADD r1, r1, #4
bcc %B1
2
ldr r1, =|Image$$ZI$$Limit| ; Top of zero init segment
mov r2, #0
3
cmp r3, r1 ; Zero init
strcc r2, [r3], #4
bcc %B3
b Main
LTORG
SMRDATA DATA
; Memory configuration should be optimized for best performance
; The following parameter is not optimized.
; Memory access cycle parameter strategy
; 1) The memory settings is safe parameters even at HCLK=75Mhz.
; 2) SDRAM refresh period is for HCLK=75Mhz.
DCD (0+(B1_BWSCON<<4)+(B2_BWSCON<<8)+(B3_BWSCON<<12)+(B4_BWSCON<<16)+(B5_BWSCON<<20)+(B6_BWSCON<<24)+(B7_BWSCON<<28))
DCD ((B0_Tacs<<13)+(B0_Tcos<<11)+(B0_Tacc<<8)+(B0_Tcoh<<6)+(B0_Tah<<4)+(B0_Tacp<<2)+(B0_PMC)) ;GCS0
DCD ((B1_Tacs<<13)+(B1_Tcos<<11)+(B1_Tacc<<8)+(B1_Tcoh<<6)+(B1_Tah<<4)+(B1_Tacp<<2)+(B1_PMC)) ;GCS1
DCD ((B2_Tacs<<13)+(B2_Tcos<<11)+(B2_Tacc<<8)+(B2_Tcoh<<6)+(B2_Tah<<4)+(B2_Tacp<<2)+(B2_PMC)) ;GCS2
DCD ((B3_Tacs<<13)+(B3_Tcos<<11)+(B3_Tacc<<8)+(B3_Tcoh<<6)+(B3_Tah<<4)+(B3_Tacp<<2)+(B3_PMC)) ;GCS3
DCD ((B4_Tacs<<13)+(B4_Tcos<<11)+(B4_Tacc<<8)+(B4_Tcoh<<6)+(B4_Tah<<4)+(B4_Tacp<<2)+(B4_PMC)) ;GCS4
DCD ((B5_Tacs<<13)+(B5_Tcos<<11)+(B5_Tacc<<8)+(B5_Tcoh<<6)+(B5_Tah<<4)+(B5_Tacp<<2)+(B5_PMC)) ;GCS5
DCD ((B6_MT<<15)+(B6_Trcd<<2)+(B6_SCAN)) ;GCS6
DCD ((B7_MT<<15)+(B3_Tacs<<13)+(B3_Tcos<<11)+(B3_Tacc<<8)+(B3_Tcoh<<6)+(B3_Tah<<4)+(B3_Tacp<<2)+(B3_PMC))
DCD ((REFEN<<23)+(TREFMD<<22)+(Trp<<20)+(Trc<<18)+(Tchr<<16)+REFCNT)
DCD 0x32 ;SCLK power saving mode, BANKSIZE 128M/128M
DCD 0x30 ;MRSR6 CL=3clk
DCD 0x30 ;MRSR7
ALIGN
AREA RamData, DATA, READWRITE
^ _ISR_STARTADDRESS
HandleReset # 4
HandleUndef # 4
HandleSWI # 4
HandlePabort # 4
HandleDabort # 4
HandleReserved # 4
HandleIRQ # 4
HandleFIQ # 4
;Don't use the label 'IntVectorTable',
;The value of IntVectorTable is different with the address you think it may be.
;IntVectorTable
HandleEINT0 # 4
HandleEINT1 # 4
HandleEINT2 # 4
HandleEINT3 # 4
HandleEINT4_7 # 4
HandleEINT8_23 # 4
HandleRSV6 # 4
HandleBATFLT # 4
HandleTICK # 4
HandleWDT # 4
HandleTIMER0 # 4
HandleTIMER1 # 4
HandleTIMER2 # 4
HandleTIMER3 # 4
HandleTIMER4 # 4
HandleUART2 # 4
HandleLCD # 4
HandleDMA0 # 4
HandleDMA1 # 4
HandleDMA2 # 4
HandleDMA3 # 4
HandleMMC # 4
HandleSPI0 # 4
HandleUART1 # 4
HandleRSV24 # 4
HandleUSBD # 4
HandleUSBH # 4
HandleIIC # 4
HandleUART0 # 4
HandleSPI1 # 4
HandleRTC # 4
HandleADC # 4
END
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