'file constant include' /************************************/ /* Constantes */ /************************************/ .equ STDOUT, 1 @ Linux output console .equ EXIT, 1 @ Linux syscall .equ WRITE, 4 @ Linux syscall 'file source include ' /* file affichage.inc */ .data /*************************************************/ szMessErr: .ascii "Error code hexa : " sHexa: .space 9,' ' .ascii " decimal : " sDeci: .space 15,' ' .asciz "\n" .text /******************************************************************/ /* display text with size calculation */ /******************************************************************/ /* r0 contains the address of the message */ affichageMess: push {r0,r1,r2,r7,lr} @ save registres mov r2,#0 @ counter length 1: @ loop length calculation ldrb r1,[r0,r2] @ read octet start position + index cmp r1,#0 @ if 0 its over addne r2,r2,#1 @ else add 1 in the length bne 1b @ and loop @ so here r2 contains the length of the message mov r1,r0 @ address message in r1 mov r0,#STDOUT @ code to write to the standard output Linux mov r7, #WRITE @ code call system "write" svc #0 @ call systeme pop {r0,r1,r2,r7,lr} @ restaur des 2 registres */ bx lr @ return /******************************************************************/ /* Converting a register to a decimal unsigned */ /******************************************************************/ /* r0 contains value and r1 address area */ /* r0 return size of result (no zero final in area) */ /* area size => 11 bytes */ .equ LGZONECAL, 10 conversion10: push {r1-r4,lr} @ save registers mov r3,r1 mov r2,#LGZONECAL 1: @ start loop bl divisionpar10U @ unsigned r0 <- dividende. quotient ->r0 reste -> r1 add r1,#48 @ digit strb r1,[r3,r2] @ store digit on area cmp r0,#0 @ stop if quotient = 0 subne r2,#1 @ else previous position bne 1b @ and loop @ and move digit from left of area mov r4,#0 2: ldrb r1,[r3,r2] strb r1,[r3,r4] add r2,#1 add r4,#1 cmp r2,#LGZONECAL ble 2b @ and move spaces in end on area mov r0,r4 @ result length mov r1,#' ' @ space 3: strb r1,[r3,r4] @ store space in area add r4,#1 @ next position cmp r4,#LGZONECAL ble 3b @ loop if r4 <= area size 100: pop {r1-r4,lr} @ restaur registres bx lr /***************************************************/ /* Converting a register to a signed decimal */ /***************************************************/ /* r0 contains value and r1 area address */ conversion10S: push {r0-r4,lr} @ save registers mov r2,r1 @ debut zone stockage mov r3,#'+' @ par defaut le signe est + cmp r0,#0 @ negative number ? movlt r3,#'-' @ yes mvnlt r0,r0 @ number inversion addlt r0,#1 mov r4,#10 @ length area 1: @ start loop bl divisionpar10U add r1,#48 @ digit strb r1,[r2,r4] @ store digit on area sub r4,r4,#1 @ previous position cmp r0,#0 @ stop if quotient = 0 bne 1b strb r3,[r2,r4] @ store signe subs r4,r4,#1 @ previous position blt 100f @ if r4 < 0 -> end mov r1,#' ' @ space 2: strb r1,[r2,r4] @store byte space subs r4,r4,#1 @ previous position bge 2b @ loop if r4 > 0 100: pop {r0-r4,lr} @ restaur registers bx lr /***************************************************/ /* division par 10 unsigned */ /***************************************************/ /* r0 dividende */ /* r0 quotient */ /* r1 remainder */ divisionpar10U: push {r2,r3,r4, lr} mov r4,r0 @ save value //mov r3,#0xCCCD @ r3 <- magic_number lower raspberry 3 //movt r3,#0xCCCC @ r3 <- magic_number higter raspberry 3 ldr r3,iMagicNumber @ r3 <- magic_number raspberry 1 2 umull r1, r2, r3, r0 @ r1<- Lower32Bits(r1*r0) r2<- Upper32Bits(r1*r0) mov r0, r2, LSR #3 @ r2 <- r2 >> shift 3 add r2,r0,r0, lsl #2 @ r2 <- r0 * 5 sub r1,r4,r2, lsl #1 @ r1 <- r4 - (r2 * 2) = r4 - (r0 * 10) pop {r2,r3,r4,lr} bx lr @ leave function iMagicNumber: .int 0xCCCCCCCD /***************************************************/ /* display error message */ /***************************************************/ /* r0 contains error code r1 : message address */ displayError: push {r0-r2,lr} @ save registers mov r2,r0 @ save error code mov r0,r1 bl affichageMess mov r0,r2 @ error code ldr r1,iAdrsHexa bl conversion16 @ conversion hexa mov r0,r2 @ error code ldr r1,iAdrsDeci @ result address bl conversion10S @ conversion decimale ldr r0,iAdrszMessErr @ display error message bl affichageMess 100: pop {r0-r2,lr} @ restaur registers bx lr @ return iAdrszMessErr: .int szMessErr iAdrsHexa: .int sHexa iAdrsDeci: .int sDeci /******************************************************************/ /* Converting a register to hexadecimal */ /******************************************************************/ /* r0 contains value and r1 address area */ conversion16: push {r1-r4,lr} @ save registers mov r2,#28 @ start bit position mov r4,#0xF0000000 @ mask mov r3,r0 @ save entry value 1: @ start loop and r0,r3,r4 @value register and mask lsr r0,r2 @ move right cmp r0,#10 @ compare value addlt r0,#48 @ <10 ->digit addge r0,#55 @ >10 ->letter A-F strb r0,[r1],#1 @ store digit on area and + 1 in area address lsr r4,#4 @ shift mask 4 positions subs r2,#4 @ counter bits - 4 <= zero ? bge 1b @ no -> loop 100: pop {r1-r4,lr} @ restaur registers bx lr @return /***************************************************/ /* integer division unsigned */ /***************************************************/ division: /* r0 contains dividend */ /* r1 contains divisor */ /* r2 returns quotient */ /* r3 returns remainder */ push {r4, lr} mov r2, #0 @ init quotient mov r3, #0 @ init remainder mov r4, #32 @ init counter bits b 2f 1: @ loop movs r0, r0, LSL #1 @ r0 <- r0 << 1 updating cpsr (sets C if 31st bit of r0 was 1) adc r3, r3, r3 @ r3 <- r3 + r3 + C. This is equivalent to r3 ? (r3 << 1) + C cmp r3, r1 @ compute r3 - r1 and update cpsr subhs r3, r3, r1 @ if r3 >= r1 (C=1) then r3 <- r3 - r1 adc r2, r2, r2 @ r2 <- r2 + r2 + C. This is equivalent to r2 <- (r2 << 1) + C 2: subs r4, r4, #1 @ r4 <- r4 - 1 bpl 1b @ if r4 >= 0 (N=0) then loop pop {r4, lr} bx lr 'File Main program' /* ARM assembly Raspberry PI */ /* program include.s */ /* Constantes */ .include "./constantes.inc" /* Initialized data */ .data szMessageOK: .asciz "Hello \n" /* code section */ .text .global main main: @ entry of program push {fp,lr} @ saves registers ldr r0,iAdrszMessageOK bl affichageMess 100: @ standard end of the program mov r0, #0 @ return code pop {fp,lr} @restaur registers mov r7, #EXIT @ request to exit program swi 0 @ perform the system call iAdrszMessageOK: .int szMessageOK /*********************************/ /* include source display */ /*********************************/ .include "./affichage.inc"