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S3C2440 2440init.s剖析第二篇(二)

S3C24402440init.s分析第二篇(二);**************************************************************************

S3C2440 2440init.s剖析第二篇(二)

;*****************************************************************************
;!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
;终说见到艳阳天了!!!!!!!!!!
; 跳到C言语的main函数处了.
;!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
;*****************************************************************************
[ :LNOT:THUMBCODE
bl Main ;Do not use main() because ……
;ldr pc, =Main ;hzh
b .
]

[ THUMBCODE ;for start-up code for Thumb mode
orr lr,pc,#1
bx lr
CODE16
bl Main ;Do not use main() because ……
b .
CODE32
]

;function initializing stacks
InitStacks
;Do not use DRAM,such as stmfd,ldmfd……
;SVCstack is initialized before
;Under toolkit ver 2.5, msr cpsr,r1 can be used instead of msr cpsr_cxsf,r1
mrs r0,cpsr
bic r0,r0,#MODEMASK
orr r1,r0,#UNDEFMODE|NOINT
msr cpsr_cxsf,r1 ;UndefMode
ldr sp,=UndefStack ; UndefStack=0x33FF_5C00

orr r1,r0,#ABORTMODE|NOINT
msr cpsr_cxsf,r1 ;AbortMode
ldr sp,=AbortStack ; AbortStack=0x33FF_6000

orr r1,r0,#IRQMODE|NOINT
msr cpsr_cxsf,r1 ;IRQMode
ldr sp,=IRQStack ; IRQStack=0x33FF_7000

orr r1,r0,#FIQMODE|NOINT
msr cpsr_cxsf,r1 ;FIQMode
ldr sp,=FIQStack ; FIQStack=0x33FF_8000

bic r0,r0,#MODEMASK|NOINT
orr r1,r0,#SVCMODE
msr cpsr_cxsf,r1 ;SVCMode
ldr sp,=SVCStack ; SVCStack=0x33FF_5800

;USER mode has not be initialized.

mov pc,lr
;The LR register will not be valid if the current mode is not SVC mode.

;===========================================================
ReadNandID
mov r7,#NFCONF
ldr r0,[r7,#4] ;NFChipEn();
bic r0,r0,#2
str r0,[r7,#4]
mov r0,#0x90 ;WrNFCmd(RdIDCMD);
strb r0,[r7,#8]
mov r4,#0 ;WrNFAddr(0);
strb r4,[r7,#0xc]
1 ;while(NFIsBusy());
ldr r0,[r7,#0x20]
tst r0,#1
beq %B1
ldrb r0,[r7,#0x10] ;id = RdNFDat()<<8;
mov r0,r0,lsl #8
ldrb r1,[r7,#0x10] ;id |= RdNFDat();
orr r5,r1,r0
ldr r0,[r7,#4] ;NFChipDs();
orr r0,r0,#2
str r0,[r7,#4]
mov pc,lr

ReadNandStatus
mov r7,#NFCONF
ldr r0,[r7,#4] ;NFChipEn();
bic r0,r0,#2
str r0,[r7,#4]
mov r0,#0x70 ;WrNFCmd(QUERYCMD);
strb r0,[r7,#8]
ldrb r1,[r7,#0x10] ;r1 = RdNFDat();
ldr r0,[r7,#4] ;NFChipDs();
orr r0,r0,#2
str r0,[r7,#4]
mov pc,lr

WaitNandBusy
mov r0,#0x70 ;WrNFCmd(QUERYCMD);
mov r1,#NFCONF
strb r0,[r1,#8]
1 ;while(!(RdNFDat()&0x40));
ldrb r0,[r1,#0x10]
tst r0,#0x40
beq %B1
mov r0,#0 ;WrNFCmd(READCMD0);
strb r0,[r1,#8]
mov pc,lr

CheckBadBlk
mov r7, lr
mov r5, #NFCONF

bic r0,r0,#0x1f ;addr &= ~0x1f;
ldr r1,[r5,#4] ;NFChipEn()
bic r1,r1,#2
str r1,[r5,#4]

mov r1,#0x50 ;WrNFCmd(READCMD2)
strb r1,[r5,#8]
mov r1, #5;6 ;6->5
strb r1,[r5,#0xc] ;WrNFAddr(5);(6) 6->5
strb r0,[r5,#0xc] ;WrNFAddr(addr)
mov r1,r0,lsr #8 ;WrNFAddr(addr>>8)
strb r1,[r5,#0xc]
cmp r6,#0 ;if(NandAddr)
movne r0,r0,lsr #16 ;WrNFAddr(addr>>16)
strneb r0,[r5,#0xc]

; bl WaitNandBusy ;WaitNFBusy()
;do not use WaitNandBusy, after WaitNandBusy will read part A!
mov r0, #100
1
subs r0, r0, #1
bne %B1
2
ldr r0, [r5, #0x20]
tst r0, #1
beq %B2

ldrb r0, [r5,#0x10] ;RdNFDat()
sub r0, r0, #0xff

mov r1,#0 ;WrNFCmd(READCMD0)
strb r1,[r5,#8]

ldr r1,[r5,#4] ;NFChipDs()
orr r1,r1,#2
str r1,[r5,#4]

mov pc, r7

ReadNandPage
mov r7,lr
mov r4,r1
mov r5,#NFCONF

ldr r1,[r5,#4] ;NFChipEn()
bic r1,r1,#2
str r1,[r5,#4]

mov r1,#0 ;WrNFCmd(READCMD0)
strb r1,[r5,#8]
strb r1,[r5,#0xc] ;WrNFAddr(0)
strb r0,[r5,#0xc] ;WrNFAddr(addr)
mov r1,r0,lsr #8 ;WrNFAddr(addr>>8)
strb r1,[r5,#0xc]
cmp r6,#0 ;if(NandAddr)
movne r0,r0,lsr #16 ;WrNFAddr(addr>>16)
strneb r0,[r5,#0xc]

ldr r0,[r5,#4] ;InitEcc()
orr r0,r0,#0x10
str r0,[r5,#4]

bl WaitNandBusy ;WaitNFBusy()

mov r0,#0 ;for(i=0; i<512; i++)
1
ldrb r1,[r5,#0x10] ;buf[i] = RdNFDat()
strb r1,[r4,r0]
add r0,r0,#1
bic r0,r0,#0x10000
cmp r0,#0x200
bcc %B1

ldr r0,[r5,#4] ;NFChipDs()
orr r0,r0,#2
str r0,[r5,#4]

mov pc,r7

;——————–LED test
EXPORT Led_Test
Led_Test
mov r0, #0x56000000
mov r1, #0x5500
str r1, [r0, #0x50]
0
mov r1, #0x50
str r1, [r0, #0x54]
mov r2, #0x100000
1
subs r2, r2, #1
bne %B1

mov r1, #0xa0
str r1, [r0, #0x54]
mov r2, #0x100000
2
subs r2, r2, #1
bne %B2
b %B0
mov pc, lr

;===========================================================

LTORG

;GCS0->SST39VF1601
;GCS1->16c550
;GCS2->IDE
;GCS3->CS8900
;GCS4->DM9000
;GCS5->CF Card
;GCS6->SDRAM
;GCS7->unused

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)+(B7_Trcd<<2)+(B7_SCAN)) ;GCS7
DCD ((REFEN<<23)+(TREFMD<<22)+(Trp<<20)+(Tsrc<<18)+(Tchr<<16)+REFCNT) DCD 0x32 ;SCLK power saving mode, BANKSIZE 128M/128M

DCD 0x30 ;MRSR6 CL=3clk
DCD 0x30 ;MRSR7 CL=3clk

BaseOfROM DCD |Image$$RO$$Base|
TopOfROM DCD |Image$$RO$$Limit|
BaseOfBSS DCD |Image$$RW$$Base|
BaseOfZero DCD |Image$$ZI$$Base|
EndOfBSS DCD |Image$$ZI$$Limit|

ALIGN

;Function for entering power down mode
; 1. SDRAM should be in self-refresh mode.
; 2. All interrupt should be maksked for SDRAM/DRAM self-refresh.
; 3. LCD controller should be disabled for SDRAM/DRAM self-refresh.
; 4. The I-cache may have to be turned on.
; 5. The location of the following code may have not to be changed.

;void EnterPWDN(int CLKCON);
EnterPWDN
mov r2,r0 ;r2=rCLKCON
tst r0,#0x8 ;SLEEP mode?
bne ENTER_SLEEP

ENTER_STOP
ldr r0,=REFRESH
ldr r3,[r0] ;r3=rREFRESH
mov r1, r3
orr r1, r1, #BIT_SELFREFRESH
str r1, [r0] ;Enable SDRAM self-refresh

mov r1,#16 ;wait until self-refresh is issued. may not be needed.
0 subs r1,r1,#1
bne %B0

ldr r0,=CLKCON ;enter STOP mode.
str r2,[r0]

mov r1,#32
0 subs r1,r1,#1 ;1) wait until the STOP mode is in effect.
bne %B0 ;2) Or wait here until the CPU&Peripherals will be turned-off
; Entering SLEEP mode, only the reset by wake-up is available.

ldr r0,=REFRESH ;exit from SDRAM self refresh mode.
str r3,[r0]

MOV_PC_LR

ENTER_SLEEP
;NOTE.
;1) rGSTATUS3 should have the return address after wake-up from SLEEP mode.

ldr r0,=REFRESH
ldr r1,[r0] ;r1=rREFRESH
orr r1, r1, #BIT_SELFREFRESH
str r1, [r0] ;Enable SDRAM self-refresh

mov r1,#16 ;Wait until self-refresh is issued,which may not be needed.
0 subs r1,r1,#1
bne %B0

ldr r1,=MISCCR
ldr r0,[r1]
orr r0,r0,#(7<<17) ;Set SCLK0=0, SCLK1=0, SCKE=0.
str r0,[r1]

ldr r0,=CLKCON ; Enter sleep mode
str r2,[r0]

b . ;CPU will die here.

WAKEUP_SLEEP
;Release SCLKn after wake-up from the SLEEP mode.
ldr r1,=MISCCR
ldr r0,[r1]
bic r0,r0,#(7<<17) ;SCLK0:0->SCLK, SCLK1:0->SCLK, SCKE:0->=SCKE.
str r0,[r1]

;Set memory control registers
ldr r0,=SMRDATA ;be careful!, hzh
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

mov r1,#256
0 subs r1,r1,#1 ;1) wait until the SelfRefresh is released.
bne %B0

ldr r1,=GSTATUS3 ;GSTATUS3 has the start address just after SLEEP wake-up
ldr r0,[r1]

mov pc,r0

;=====================================================================
; Clock division test
; Assemble code, because VSYNC time is very short
;=====================================================================
EXPORT CLKDIV124
EXPORT CLKDIV144

CLKDIV124

ldr r0, = CLKDIVN
ldr r1, = 0x3 ; 0x3 = 1:2:4
str r1, [r0]
; wait until clock is stable
nop
nop
nop
nop
nop

ldr r0, = REFRESH
ldr r1, [r0]
bic r1, r1, #0xff
bic r1, r1, #(0x7<<8)
orr r1, r1, #0x470 ; REFCNT135
str r1, [r0]
nop
nop
nop
nop
nop
mov pc, lr

CLKDIV144
ldr r0, = CLKDIVN
ldr r1, = 0x4 ; 0x4 = 1:4:4
str r1, [r0]
; wait until clock is stable
nop
nop
nop
nop
nop

ldr r0, = REFRESH
ldr r1, [r0]
bic r1, r1, #0xff
bic r1, r1, #(0x7<<8)
orr r1, r1, #0x630 ; REFCNT675 – 1520
str r1, [r0]
nop
nop
nop
nop
nop
mov pc, lr

ALIGN

AREA RamData, DATA, READWRITE

^ _ISR_STARTADDRESS ; _ISR_STARTADDRESS=0x33FF_FF00
HandleReset # 4
HandleUndef # 4
HandleSWI # 4
HandlePabort # 4
HandleDabort # 4
HandleReserved # 4
HandleIRQ # 4
HandleFIQ # 4

;Do not use the label IntVectorTable,
;The value of IntVectorTable is different with the address you think it may be.
;IntVectorTable
;@0x33FF_FF20
HandleEINT0 # 4
HandleEINT1 # 4
HandleEINT2 # 4
HandleEINT3 # 4
HandleEINT4_7 # 4
HandleEINT8_23 # 4
HandleCAM # 4 ; Added for 2440.
HandleBATFLT # 4
HandleTICK # 4
HandleWDT # 4
HandleTIMER0 # 4
HandleTIMER1 # 4
HandleTIMER2 # 4
HandleTIMER3 # 4
HandleTIMER4 # 4
HandleUART2 # 4
;@0x33FF_FF60
HandleLCD # 4
HandleDMA0 # 4
HandleDMA1 # 4
HandleDMA2 # 4
HandleDMA3 # 4
HandleMMC # 4
HandleSPI0 # 4
HandleUART1 # 4
HandleNFCON # 4 ; Added for 2440.
HandleUSBD # 4
HandleUSBH # 4
HandleIIC # 4
HandleUART0 # 4
HandleSPI1 # 4
HandleRTC # 4
HandleADC # 4
;@0x33FF_FFA0
END

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