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I would like to know the proper way of writing SVC calls on an ARM-based microcontroller.

My understanding so far is that ARM has an exception vector table, meaning that the first instructions in any program have to be branches to the appropriate handlers:

RESET          ;Handles reset
UNDEFINED      ;Undefined instructions
SVC             BL            SVC_Entry 
PRE_ABORT      ;Prefetch abort
DAT_ABORT      ;Data abort

Then, every time an SVC instruction is ran, the mode is switched to supervisor, the number provided with the SVC is stored in R0 and the program would branch to an appropriate handler:

;== Handling SVC calls ========================================================

Max_SVC     EQU 1

SVC_Entry   CMP R0, #Max_SVC            ;Check upper limit
            BHI SVC_end                 ;Does nothing if unknown    
            ADD R0, PC, R0, LSL #2      ;Calculate table address
            LDR PC, [R0, #0]        

Jump_table  DEFW    SVC_0                   ;Halt
            DEFW    SVC_1                   ;Print string

;== SVC calls ================================================================

SVC_1       B   SVC_end

SVC_end     MOVS    PC, LR          ;Exiting

So, if we have these instructions:

ADR R1, string       ;R1 points to the string
SVC 1                ;SVC_1 handles the printing

The program would have to switch to supervisor mode, have the number "1" stored in R0, and following the jump table branch to SVC_1, run the code and switch back to user mode.

Is this correct? Am I doing it right?

The problems I have so far is that my compiler says "operator expected" for this line:

SVC             BL            SVC_Entry 

Information on this topic is hard to find on the internet and I just want to know how to properly use SVC calls on an ARM microcontroller.

Thank you very much.

EDIT: The underlying processor is an ARM9 clocking at around 240 MHz. This lives in an AT91 microcontroller. The lab board on which it resides has been modified to fit my University's needs.

The code is loaded on the board using a custom-made program through a serial port. The program also allows debugging.

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what microcontroller or family are you targeting? arm7tdmi? cortex-m? –  dwelch Apr 22 '13 at 21:08
You need something like this, SVC: B SVC_Entry. Note, the : colon which makes it a label. It is probably better to name it svc_vec, so svc_vec: b SVC_Entry. The other issue, if you use BL, you will kill the user return address. You may use R0 or whatever convention you wish to establish; it is generally slow to examine the instruction. Don't forget to set a supervisor stack and mode. You may wish to save some user registers before you change them; unless you define that in the calling convention. –  artless noise Apr 22 '13 at 21:47
@dwelch Traditionally, the SVC call number was encoded in the op-code (this is how Acorn used to do it in RISCOS). However, ARM Linux and iOS both pass it in a register - It probably makes sense from a performance point on all ARM devices with a Harvard architecture as it avoids polluting the D-Cache with a line where only 4 bytes are ever likely to be read, and a the corresponding cache-line fill. –  marko Apr 22 '13 at 23:01
@artlessnoise, I have tried naming it as you suggested, the compiler says: Mnemonic not found. –  Percentage Apr 22 '13 at 23:20
'Mnemonic not found' means the assembler still thinks your label is an instruction. You should update your question with the exact code you have now. Most of what you have sketched out seems correct. You don't actually need a label in the vector table as dwelch shows for the Thumb on cortex-m. The more real code the better. –  artless noise Apr 23 '13 at 0:48

1 Answer 1

As said, don't use BL to jump to the SVC entry, use B. Have a routine first to decide determine the SVC number. (Mine is called SVC_dispatcher). What university are you at? I'll try and explain this thoroughly, making no assumptions on how much you do or don't know. I've put in the correct terms so you can google it for more info if my comments are unclear or you want more depth. I'm unsure of the labelling methods with the colon, I'm used to an older instruction set.

Good luck

            PUSH    {LR}              ;  always save your LR
            LDR     R14, [LR, #-4]    ; its been stacked, so we can it (LR is R14)
   ; the link register is the line after the SVC instruction
   ; above, we load the instruction that is one before the 
   ; link register (#-4 preindexed load) means instruction (SVC 1) into R14.                      

   ; Use bit clear to remove the mnemonic from the  32 bit instruction, 
  ; leaving the data (1)     
             BIC     R14, R14, #&FF000000  

            CMP     R14, #Max_SVC
            BHI     SVC_unknown
            ADR     R1, Jump_Table        ; use this format, never add to the PC
            LDR     PC, [R1, R14, LSL #2] 
       ; Beware: PC can be changed by IRQs **AT ANY TIME**

Jump_Table                                 ; you know the drill here
            DEFW    SVC_0            
            DEFW    SVC_1

SVC_0       B       SVC_end

SVC_1       BL      printString     ; consider stacking registers that printString 
            B       SVC_end         ; will corrupt

SVC_end     POP     {LR}            ; restore link register 
            MOV     PC, LR          
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