help 关于44B0中断问题

scut_ak

我用的是优龙的44B0板子,今天在调试一下中断程序,我设置的是IRQ中断,不是向量中断,怎么在
b HandlerIRQ 这里设置了断点,程序却没有在这里停止,而是跑到IsrIRQ这里,请问当中断产生的时候程序是怎么跑的.就是每一步怎么走,




下面是他的初始化程序:
; *******************************************************
; * NAME : 44BINIT.S *
; * Description: *
; * C start up codes *
; * Configure memory, Initialize ISR ,stacks *
; * Initialize C-variables *
; * Fill zeros into zero-initialized C-variables *
; *******************************************************

INCLUDE option.s
INCLUDE memcfg.s

;Memory Area
;GCS6 64M 16bit(8MB) DRAM/SDRAM(0xc000000-0xc7fffff)
;APP RAM=0xc000000~0xc7effff
;44BMON RAM=0xc7f0000-0xc7fffff
;STACK =0xc7ffa00

;Interrupt Control
INTPND EQU 0x01e00004
INTMOD EQU 0x01e00008
INTMSK EQU 0x01e0000c
I_ISPR EQU 0x01e00020
I_CMST EQU 0x01e0001c

;Watchdog timer
WTCON EQU 0x01d30000

;Clock Controller
PLLCON EQU 0x01d80000
CLKCON EQU 0x01d80004
LOCKTIME EQU 0x01d8000c

;Memory Controller
REFRESH EQU 0x01c80024

;BDMA destination register
BDIDES0 EQU 0x1f80008
BDIDES1 EQU 0x1f80028

;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

;check if tasm.exe is used.
GBLL THUMBCODE
[ {CONFIG} = 16
THUMBCODE SETL {TRUE}
CODE32
|
THUMBCODE SETL {FALSE}
]

[ THUMBCODE
CODE32 ;for start-up code for Thumb mode
]

MACRO
$HandlerLabel HANDLER $HandleLabel

$HandlerLabel
sub sp,sp,#4 ;decrement sp(to store jump address)
stmfd sp!,{r0} ;PUSH the work register to stack(lr does not push because it return to original address)
ldr r0,=$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
b ResetHandler ;for debug
b HandlerUndef ;handlerUndef
b HandlerSWI ;SWI interrupt handler
b HandlerPabort ;handlerPAbort
b HandlerDabort ;handlerDAbort
b . ;handlerReserved
b HandlerIRQ
b HandlerFIQ
;***IMPORTANT NOTE***
;If the H/W vectored interrutp mode is enabled, The above two instructions should
;be changed like below, to work-around with H/W bug of S3C44B0X interrupt controller.
; b HandlerIRQ -> subs pc,lr,#4
; b HandlerIRQ -> subs pc,lr,#4

VECTOR_BRANCH
ldr pc,=HandlerEINT0 ;mGA H/W interrupt vector table
ldr pc,=HandlerEINT1 ;
ldr pc,=HandlerEINT2 ;
ldr pc,=HandlerEINT3 ;
ldr pc,=HandlerEINT4567 ;
ldr pc,=HandlerTICK ;mGA
b .
b .
ldr pc,=HandlerZDMA0 ;mGB
ldr pc,=HandlerZDMA1 ;
ldr pc,=HandlerBDMA0 ;
ldr pc,=HandlerBDMA1 ;
ldr pc,=HandlerWDT ;
ldr pc,=HandlerUERR01 ;mGB
b .
b .
ldr pc,=HandlerTIMER0 ;mGC
ldr pc,=HandlerTIMER1 ;
ldr pc,=HandlerTIMER2 ;
ldr pc,=HandlerTIMER3 ;
ldr pc,=HandlerTIMER4 ;
ldr pc,=HandlerTIMER5 ;mGC
b .
b .
ldr pc,=HandlerURXD0 ;mGD
ldr pc,=HandlerURXD1 ;
ldr pc,=HandlerIIC ;
ldr pc,=HandlerSIO ;
ldr pc,=HandlerUTXD0 ;
ldr pc,=HandlerUTXD1 ;mGD
b .
b .
ldr pc,=HandlerRTC ;mGKA
b . ;
b . ;
b . ;
b . ;
b . ;mGKA
b .
b .
ldr pc,=HandlerADC ;mGKB
b . ;
b . ;
b . ;
b . ;
b . ;mGKB
b .
b .
;0xe0=EnterPWDN
ldr pc,=EnterPWDN

LTORG

HandlerFIQ HANDLER HandleFIQ
HandlerIRQ HANDLER HandleIRQ
HandlerUndef HANDLER HandleUndef
HandlerSWI HANDLER HandleSWI
HandlerDabort HANDLER HandleDabort
HandlerPabort HANDLER HandlePabort

HandlerADC HANDLER HandleADC
HandlerRTC HANDLER HandleRTC
HandlerUTXD1 HANDLER HandleUTXD1
HandlerUTXD0 HANDLER HandleUTXD0
HandlerSIO HANDLER HandleSIO
HandlerIIC HANDLER HandleIIC
HandlerURXD1 HANDLER HandleURXD1
HandlerURXD0 HANDLER HandleURXD0
HandlerTIMER5 HANDLER HandleTIMER5
HandlerTIMER4 HANDLER HandleTIMER4
HandlerTIMER3 HANDLER HandleTIMER3
HandlerTIMER2 HANDLER HandleTIMER2
HandlerTIMER1 HANDLER HandleTIMER1
HandlerTIMER0 HANDLER HandleTIMER0
HandlerUERR01 HANDLER HandleUERR01
HandlerWDT HANDLER HandleWDT
HandlerBDMA1 HANDLER HandleBDMA1
HandlerBDMA0 HANDLER HandleBDMA0
HandlerZDMA1 HANDLER HandleZDMA1
HandlerZDMA0 HANDLER HandleZDMA0
HandlerTICK HANDLER HandleTICK
HandlerEINT4567 HANDLER HandleEINT4567
HandlerEINT3 HANDLER HandleEINT3
HandlerEINT2 HANDLER HandleEINT2
HandlerEINT1 HANDLER HandleEINT1
HandlerEINT0 HANDLER HandleEINT0


;One of the following two routines can be used for non-vectored interrupt.

IsrIRQ ;using I_ISPR register.
sub sp,sp,#4 ;reserved for PC
stmfd sp!,{r8-r9}

;IMPORTANT CAUTION
;if I_ISPC is not used properly, I_ISPR can be 0 in this routine.

ldr r9,=I_ISPR
ldr r9,[r9]

cmp r9, #0x0 ;If the IDLE mode work-around is used,
;r9 may be 0 sometimes.
beq %F2

mov r8,#0x0
0
movs r9,r9,lsr #1
bcs %F1
add r8,r8,#4
b %B0

1
ldr r9,=HandleADC
add r9,r9,r8
ldr r9,[r9]
str r9,[sp,#8]
ldmfd sp!,{r8-r9,pc}

2
ldmfd sp!,{r8-r9}
add sp,sp,#4
subs pc,lr,#4

;****************************************************
;* START *
;****************************************************
ResetHandler
ldr r0,=WTCON ;watch dog disable
ldr r1,=0x0
str r1,[r0]

ldr r0,=INTMSK
ldr r1,=0x07ffffff ;all interrupt disable
str r1,[r0]

;****************************************************
;* Set clock control registers *
;****************************************************
ldr r0,=LOCKTIME
ldr r1,=0xfff
str r1,[r0]

[ PLLONSTART
ldr r0,=PLLCON ;temporary setting of PLL
ldr r1,=((M_DIV<<12)+(P_DIV<<4)+S_DIV) ;Fin=10MHz,Fout=40MHz
str r1,[r0]
]

ldr r0,=CLKCON
ldr r1,=0x7ff8 ;All unit block CLK enable
str r1,[r0]

;****************************************
;* change BDMACON reset value for BDMA *
;****************************************
ldr r0,=BDIDES0
ldr r1,=0x40000000 ;BDIDESn reset value should be 0x40000000
str r1,[r0]

ldr r0,=BDIDES1
ldr r1,=0x40000000 ;BDIDESn reset value should be 0x40000000
str r1,[r0]

;****************************************************
;* Set memory control registers *
;****************************************************
ldr r0,=SMRDATA
ldmia r0,{r1-r11}

ldr r0,=0x01c80000 ;BWSCON Address
stmia r0,{r1-r11}
;MRSR register must not be reconfigured while the code is running on SDRAM

;****************************************************
;* Initialize stacks *
;****************************************************
ldr sp, =SVCStack ;Why?
bl InitStacks

;****************************************************
;* Setup IRQ handler *
;****************************************************
ldr r0,=HandleIRQ ;This routine is needed
ldr r1,=IsrIRQ ;if there is not 'subs pc,lr,#4' at 0x18, 0x1c
str r1,[r0]

;********************************************************
;* Copy and paste RW data/zero initialized data *
;********************************************************
LDR r0, =|Image$$RO$$Limit| ; Get pointer to ROM data
LDR r1, =|Image$$RW$$Base| ; and RAM copy
LDR r3, =|Image$$ZI$$Base|
;Zero init base => top of initialised data

CMP r0, r1 ; Check that they are different
BEQ %F1
0
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 %B0
1
LDR r1, =|Image$$ZI$$Limit| ; Top of zero init segment
MOV r2, #0
2
CMP r3, r1 ; Zero init
STRCC r2, [r3], #4
BCC %B2

[ :LNOT:THUMBCODE
BL Main ;Do not use main() because ......
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
]

;****************************************************
;* The function for initializing stack *
;****************************************************
InitStacks
;Do not use DRAM,such as stmfd,ldmfd......
;SVCstack is initialized before
;Under toolkit ver 2.50, '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

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

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

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

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

;USER mode is not initialized.
mov pc,lr ;The LR register may be not valid for the mode changes.

;****************************************************
;* The function for entering power down mode *
;****************************************************
;void EnterPWDN(int CLKCON);
EnterPWDN
mov r2,r0 ;r0=CLKCON
ldr r0,=REFRESH
ldr r3,[r0]
mov r1, r3
orr r1, r1, #0x400000 ;self-refresh enable
str r1, [r0]

nop ;Wait until self-refresh is issued. May not be needed.
nop ;If the other bus master holds the bus, ...
nop ; mov r0, r0
nop
nop
nop
nop

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

;wait until enter SL_IDLE,STOP mode and until wake-up
ldr r0,=0x10
0 subs r0,r0,#1
bne %B0

;exit from DRAM/SDRAM self refresh mode.
ldr r0,=REFRESH
str r3,[r0]
mov pc,lr

LTORG

SMRDATA DATA
;*****************************************************************
;* Memory configuration has to be optimized for best performance *
;* The following parameter is not optimized. *
;*****************************************************************

;*** memory access cycle parameter strategy ***
; 1) Even FP-DRAM, EDO setting has more late fetch point by half-clock
; 2) The memory settings,here, are made the safe parameters even at 66Mhz.
; 3) FP-DRAM Parameters:tRCD=3 for tRAC, tcas=2 for pad delay, tcp=2 for bus load.
; 4) DRAM refresh rate is for 40Mhz.

;bank0 16bit BOOT ROM 32M
;bank1 8bit USB(PDIUSBD12)
;bank2 16bit IDE
;bank3 16bit net(RTL8019AS)
;bank4 no
;bank5 no
;bank6 16bit SDRAM 8M
;bank7 no

[ BUSWIDTH=16
DCD 0x11111110 ;Bank0=OM[1], Bank1~Bank7=16bit
| ;BUSWIDTH=32
DCD 0x22222220 ;Bank0=OM[1], Bank1~Bank7=32bit
]
DCD ((B0_Tacs<<13)+(B0_Tcos<<11)+(B0_Tacc<<+(B0_Tcoh<<6)+(B0_Tah<<4)+(B0_Tacp<<2)+(B0_PMC)) ;GCS0
DCD ((B1_Tacs<<13)+(B1_Tcos<<11)+(B1_Tacc<<+(B1_Tcoh<<6)+(B1_Tah<<4)+(B1_Tacp<<2)+(B1_PMC)) ;GCS1
DCD ((B2_Tacs<<13)+(B2_Tcos<<11)+(B2_Tacc<<+(B2_Tcoh<<6)+(B2_Tah<<4)+(B2_Tacp<<2)+(B2_PMC)) ;GCS2
DCD ((B3_Tacs<<13)+(B3_Tcos<<11)+(B3_Tacc<<+(B3_Tcoh<<6)+(B3_Tah<<4)+(B3_Tacp<<2)+(B3_PMC)) ;GCS3
DCD ((B4_Tacs<<13)+(B4_Tcos<<11)+(B4_Tacc<<+(B4_Tcoh<<6)+(B4_Tah<<4)+(B4_Tacp<<2)+(B4_PMC)) ;GCS4
DCD ((B5_Tacs<<13)+(B5_Tcos<<11)+(B5_Tacc<<+(B5_Tcoh<<6)+(B5_Tah<<4)+(B5_Tacp<<2)+(B5_PMC)) ;GCS5
[ BDRAMTYPE="DRAM"
DCD ((B6_MT<<15)+(B6_Trcd<<4)+(B6_Tcas<<3)+(B6_Tcp<<2)+(B6_CAN)) ;GCS6 check the MT value in parameter.a
DCD ((B7_MT<<15)+(B7_Trcd<<4)+(B7_Tcas<<3)+(B7_Tcp<<2)+(B7_CAN)) ;GCS7
| ;"SDRAM"
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)+(Trc<<1+(Tchr<<16)+REFCNT) ;REFRESH RFEN=1, TREFMD=0, trp=3clk, trc=5clk, tchr=3clk,count=1019
DCD 0x10 ;SCLK power down mode, BANKSIZE 32M/32M
DCD 0x20 ;MRSR6 CL=2clk
DCD 0x20 ;MRSR7

ALIGN


AREA RamData, DATA, READWRITE

^ (_ISR_STARTADDRESS-0x500)

UserStack # 256 ;c1(c7)ffa00
SVCStack # 256 ;c1(c7)ffb00
UndefStack # 256 ;c1(c7)ffc00
AbortStack # 256 ;c1(c7)ffd00
IRQStack # 256 ;c1(c7)ffe00
FIQStack # 0 ;c1(c7)fff00


^ _ISR_STARTADDRESS
HandleReset # 4 ;0xc7fff00
HandleUndef # 4 ;0xc7fff04
HandleSWI # 4 ;0xc7fff08
HandlePabort # 4 ;0xc7fff0c
HandleDabort # 4 ;0xc7fff10
HandleReserved # 4 ;0xc7fff14
HandleIRQ # 4 ;0xc7fff18
HandleFIQ # 4 ;0xc7fff1c

;Do not use the label 'IntVectorTable',
;because armasm.exe can not recognize this label correctly.
;the value is different with an address you think it may be.
;IntVectorTable
HandleADC # 4 ;0xc7fff20
HandleRTC # 4
HandleUTXD1 # 4
HandleUTXD0 # 4
HandleSIO # 4
HandleIIC # 4
HandleURXD1 # 4
HandleURXD0 # 4
HandleTIMER5 # 4
HandleTIMER4 # 4
HandleTIMER3 # 4
HandleTIMER2 # 4
HandleTIMER1 # 4
HandleTIMER0 # 4
HandleUERR01 # 4
HandleWDT # 4
HandleBDMA1 # 4
HandleBDMA0 # 4
HandleZDMA1 # 4
HandleZDMA0 # 4
HandleTICK # 4
HandleEINT4567 # 4
HandleEINT3 # 4
HandleEINT2 # 4
HandleEINT1 # 4
HandleEINT0 # 4 ;0xc1(c7)fff84

END

lumit-support-1

转：44b0中断的详解

S3C44B0X的中断控制器有30个中断源。
S3C44B0X支持新的中断处理模式称为（vectored interrupt mode），在多个中段请求发生时，
由硬件优先级逻辑确定应该有哪个中断得到服务，同时硬件逻辑使中断相量表的跳转指令加载到
（0X18或0X1C）位置，在该位置执行跳转指令使程序跳到相应的中断服务线程，因此相对与传
统的ARM的软件方法能够大大减少中断进入延时。
有两种类型的中断模式，FIQ （快速中断）和IRQ.所有的中断源在中断请求时应该确定使用的
中断模式。在网络上广为流传的44b0开发板例程中，大部分使用的都是IRQ中断模式（请查阅
寄存器rINTCON）。

一般来讲，使用44b0开发板进行调试时，无需更改44b.h,44blib.h,def.h,option.h,44binit.s,
44blib.c,44blib_a.s,memcfg.s,option.s等程序，甚至无需看懂，即可编程使用44b0开发板。

如前所述，硬件逻辑使中断相量表的跳转指令加载到（0X18或0X1C）位置，在该位置执行跳转指令
使程序跳到相应的中断服务线程，用户只需定义相应的中断服务程序即可。中断向量表的定义如下
（节选，请看44b.h）
/* ISR */
#define pISR_RESET (*(unsigned *)(_ISR_STARTADDRESS+0x0))
#define pISR_UNDEF (*(unsigned *)(_ISR_STARTADDRESS+0x4))
#define pISR_SWI (*(unsigned *)(_ISR_STARTADDRESS+0x)
#define pISR_PABORT (*(unsigned *)(_ISR_STARTADDRESS+0xc))
#define pISR_DABORT (*(unsigned *)(_ISR_STARTADDRESS+0x10))
#define pISR_RESERVED (*(unsigned *)(_ISR_STARTADDRESS+0x14))
#define pISR_IRQ (*(unsigned *)(_ISR_STARTADDRESS+0x1)
#define pISR_FIQ (*(unsigned *)(_ISR_STARTADDRESS+0x1c))
.........................................
#define pISR_EINT4567 (*(unsigned *)(_ISR_STARTADDRESS+0x74))
#define pISR_EINT3 (*(unsigned *)(_ISR_STARTADDRESS+0x7)
#define pISR_EINT2 (*(unsigned *)(_ISR_STARTADDRESS+0x7c))
#define pISR_EINT1 (*(unsigned *)(_ISR_STARTADDRESS+0x80))
#define pISR_EINT0 (*(unsigned *)(_ISR_STARTADDRESS+0x84))

用户定义相应的中断服务程序，可以参考该语句，

pISR_EINT4567=(unsigned)Key_Int;;; //将外部中断4567产生的中断，指向函数Key_Init

当然，用户也可以根据自己的爱好，任意改变函数名，

pISR_EINT4567=(unsigned)MyCat； //函数名由用户定义

最好在程序开头声明一下，

void __irq Mycat(void);;;

显然，至此可以基本理解44b0的中断，是如何与程序中的中断服务子程序联系起来的了。
中断的硬件逻辑，将检测到的中断，以某种方式指向中断服务程序的地址，该地址在头文件
中以宏定义的形式出现。用户在自己的程序中，将中断服务子程序的地址付给该指针，从而
将其联系起来。




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