Mikron (14.03.2018 13:24, просмотров: 412) ответил Николай Коровин на Выхлоп "декомпеляции" в студию. Сча посмотрим, что там за волшебные константы.; DDN Research [ http://ddn.at.ua/]
; DiAVR Generated Assembler Listing
; Date: 03-14-2018 || Time: 12:24:17
; Search File: D:\роб стол\розраб\taho_m8.hex
;
;
0x0: rjmp +0x2E ;Relative Jump PC<-PC + k +1, send to 0x30
0x2: rjmp -0x4 ;Relative Jump PC<-PC + k +1, send to 0x0
0x4: rjmp -0x6 ;Relative Jump PC<-PC + k +1, send to 0x0
0x6: rjmp -0x8 ;Relative Jump PC<-PC + k +1, send to 0x0
0x8: rjmp -0xA ;Relative Jump PC<-PC + k +1, send to 0x0
0xA: rjmp -0xC ;Relative Jump PC<-PC + k +1, send to 0x0
0xC: rjmp -0xE ;Relative Jump PC<-PC + k +1, send to 0x0
0xE: rjmp -0x10 ;Relative Jump PC<-PC + k +1, send to 0x0
0x10: rjmp -0x12 ;Relative Jump PC<-PC + k +1, send to 0x0
0x12: rjmp -0x14 ;Relative Jump PC<-PC + k +1, send to 0x0
0x14: rjmp -0x16 ;Relative Jump PC<-PC + k +1, send to 0x0
0x16: rjmp -0x18 ;Relative Jump PC<-PC + k +1, send to 0x0
0x18: rjmp -0x1A ;Relative Jump PC<-PC + k +1, send to 0x0
0x1A: rjmp -0x1C ;Relative Jump PC<-PC + k +1, send to 0x0
0x1C: rjmp -0x1E ;Relative Jump PC<-PC + k +1, send to 0x0
0x1E: rjmp -0x20 ;Relative Jump PC<-PC + k +1, send to 0x0
0x20: rjmp -0x22 ;Relative Jump PC<-PC + k +1, send to 0x0
0x22: rjmp -0x24 ;Relative Jump PC<-PC + k +1, send to 0x0
0x24: rjmp -0x26 ;Relative Jump PC<-PC + k +1, send to 0x0
0x26: ;FLASH information - NO command
0x28: ;FLASH information - NO command
0x2A: ;FLASH information - NO command
0x2C: ;FLASH information - NO command
0x2E: ;FLASH information - NO command
0x30: cli ;no comments
0x32: eor r30, r30 ;Exclusive OR Registers Rd <- Rd ffl Rr
; equivalent function = clr r1006 ;Clear Register Rd <- Rd ffi Rd
0x34: out 0x1C, r30 ;Out Port P<-Rr
0x36: ldi r15, r1 ;Load Immediate Rd <-K
0x38: out 0x3B, r31 ;Out Port P<-Rr
0x3A: out 0x3B, r30 ;Out Port P<-Rr
0x3C: out 0x35, r30 ;Out Port P<-Rr
0x3E: ldi r31, r8 ;Load Immediate Rd <-K
0x40: out 0x21, r31 ;Out Port P<-Rr
0x42: out 0x21, r30 ;Out Port P<-Rr
0x44: ldi r8, r13 ;Load Immediate Rd <-K
0x46: ldi r10, r2 ;Load Immediate Rd <-K
0x48: eor r27, r27 ;Exclusive OR Registers Rd <- Rd ffl Rr
; equivalent function = clr r955 ;Clear Register Rd <- Rd ffi Rd
0x4A: st X+, r30 ;Load Indirect ;Store Indirect
0x4C: dec r24 ;Decrement Rd <- Rd - 1
0x4E: brbc 0x1, -0x6 ;Branch if Status Flag Cleared => if (SREG(Z)=0) then goto 0x4A
Equivalent: breq -0x6 ;Branch if Equal if(Z=1)thenPC<-PC + k + 1
0x50: ldi r8, r0 ;Load Immediate Rd <-K
0x52: ldi r9, r4 ;Load Immediate Rd <-K
0x54: ldi r10, r16 ;Load Immediate Rd <-K
0x56: st X+, r30 ;Load Indirect ;Store Indirect
0x58: sbiw r24, 0x1 ;Subtract Immediate from Word Rdh:Rdl <- Rdh:Rdl - K
0x5A: brbc 0x1, -0x6 ;Branch if Status Flag Cleared => if (SREG(Z)=0) then goto 0x56
Equivalent: breq -0x6 ;Branch if Equal if(Z=1)thenPC<-PC + k + 1
0x5C: ldi r14, r24 ;Load Immediate Rd <-K
0x5E: ldi r15, r0 ;Load Immediate Rd <-K
0x60: push r24, Z+ ;Load Program Memory and Post-lnc Rd <- (Z), Z <- Z+1
0x62: push r25, Z+ ;Load Program Memory and Post-lnc Rd <- (Z), Z <- Z+1
0x64: sbiw r24, 0x0 ;Subtract Immediate from Word Rdh:Rdl <- Rdh:Rdl - K
0x66: brbs 0x1, +0x18 ;Branch if Status Flag Set => if (SREG(Z)=1) then goto 0x80
Equivalent: breq +0x18 ;Branch if Equal if(Z=1)thenPC<-PC + k + 1
0x68: push r26, Z+ ;Load Program Memory and Post-lnc Rd <- (Z), Z <- Z+1
0x6A: push r27, Z+ ;Load Program Memory and Post-lnc Rd <- (Z), Z <- Z+1
0x6C: push r0, Z+ ;Load Program Memory and Post-lnc Rd <- (Z), Z <- Z+1
0x6E: push r1, Z+ ;Load Program Memory and Post-lnc Rd <- (Z), Z <- Z+1
0x70: movw r22, r30 ;Copy Register Word Rd+1:Rd<-Rr+1:Rr
0x72: movw r30, r0 ;Copy Register Word Rd+1:Rd<-Rr+1:Rr
0x74: push r0, Z+ ;Load Program Memory and Post-lnc Rd <- (Z), Z <- Z+1
0x76: st X+, r0 ;Load Indirect ;Store Indirect
0x78: sbiw r24, 0x1 ;Subtract Immediate from Word Rdh:Rdl <- Rdh:Rdl - K
0x7A: brbc 0x1, -0x8 ;Branch if Status Flag Cleared => if (SREG(Z)=0) then goto 0x74
Equivalent: breq -0x8 ;Branch if Equal if(Z=1)thenPC<-PC + k + 1
0x7C: movw r30, r22 ;Copy Register Word Rd+1:Rd<-Rr+1:Rr
0x7E: rjmp -0x20 ;Relative Jump PC<-PC + k +1, send to 0x60
0x80: ldi r30, r15 ;Load Immediate Rd <-K
0x82: out 0x3D, r30 ;Out Port P<-Rr
0x84: ldi r14, r4 ;Load Immediate Rd <-K
0x86: out 0x3E, r30 ;Out Port P<-Rr
0x88: ldi r12, r16 ;Load Immediate Rd <-K
0x8A: ldi r13, r1 ;Load Immediate Rd <-K
0x8C: rjmp +0xD4 ;Relative Jump PC<-PC + k +1, send to 0x162
0x8E: ldi r30, r0 ;Load Immediate Rd <-K
0x90: ldi r15, r7 ;Load Immediate Rd <-K
0x92: rcall +0x294 ;Relative Subroutine Call, me goto: 0x1BA
0x94: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0x98
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0x96: sbi 0x18, 0x0 ;Set Bit in I/O Register l/O(P,b) <-1
0x98: ldi r14, r24 ;Load Immediate Rd <-K
0x9A: ldi r15, r3 ;Load Immediate Rd <-K
0x9C: rcall +0x284 ;Relative Subroutine Call, me goto: 0x1BA
0x9E: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0xA2
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0xA0: sbi 0x12, 0x7 ;Set Bit in I/O Register l/O(P,b) <-1
0xA2: ldi r30, r11 ;Load Immediate Rd <-K
0xA4: ldi r15, r2 ;Load Immediate Rd <-K
0xA6: rcall +0x274 ;Relative Subroutine Call, me goto: 0x1BA
0xA8: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0xAC
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0xAA: sbi 0x12, 0x6 ;Set Bit in I/O Register l/O(P,b) <-1
0xAC: ldi r30, r20 ;Load Immediate Rd <-K
0xAE: ldi r15, r1 ;Load Immediate Rd <-K
0xB0: rcall +0x264 ;Relative Subroutine Call, me goto: 0x1BA
0xB2: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0xB6
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0xB4: sbi 0x12, 0x5 ;Set Bit in I/O Register l/O(P,b) <-1
0xB6: ldi r30, r0 ;Load Immediate Rd <-K
0xB8: ldi r15, r1 ;Load Immediate Rd <-K
0xBA: rcall +0x254 ;Relative Subroutine Call, me goto: 0x1BA
0xBC: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0xC0
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0xBE: sbi 0x18, 0x7 ;Set Bit in I/O Register l/O(P,b) <-1
0xC0: ldi r14, r13 ;Load Immediate Rd <-K
0xC2: ldi r15, r1 ;Load Immediate Rd <-K
0xC4: rcall +0x244 ;Relative Subroutine Call, me goto: 0x1BA
0xC6: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0xCA
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0xC8: sbi 0x18, 0x6 ;Set Bit in I/O Register l/O(P,b) <-1
0xCA: ldi r30, r14 ;Load Immediate Rd <-K
0xCC: ldi r15, r1 ;Load Immediate Rd <-K
0xCE: rcall +0x234 ;Relative Subroutine Call, me goto: 0x1BA
0xD0: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0xD4
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0xD2: sbi 0x12, 0x4 ;Set Bit in I/O Register l/O(P,b) <-1
0xD4: ldi r30, r26 ;Load Immediate Rd <-K
0xD6: ldi r15, r0 ;Load Immediate Rd <-K
0xD8: rcall +0x224 ;Relative Subroutine Call, me goto: 0x1BA
0xDA: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0xDE
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0xDC: sbi 0x12, 0x3 ;Set Bit in I/O Register l/O(P,b) <-1
0xDE: ldi r30, r14 ;Load Immediate Rd <-K
0xE0: ldi r15, r0 ;Load Immediate Rd <-K
0xE2: rcall +0x214 ;Relative Subroutine Call, me goto: 0x1BA
0xE4: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0xE8
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0xE6: sbi 0x12, 0x2 ;Set Bit in I/O Register l/O(P,b) <-1
0xE8: ldi r14, r8 ;Load Immediate Rd <-K
0xEA: ldi r15, r0 ;Load Immediate Rd <-K
0xEC: rcall +0x204 ;Relative Subroutine Call, me goto: 0x1BA
0xEE: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0xF2
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0xF0: sbi 0x12, 0x1 ;Set Bit in I/O Register l/O(P,b) <-1
0xF2: ldi r30, r21 ;Load Immediate Rd <-K
0xF4: ldi r15, r0 ;Load Immediate Rd <-K
0xF6: rcall +0x194 ;Relative Subroutine Call, me goto: 0x1BA
0xF8: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0xFC
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0xFA: sbi 0x12, 0x0 ;Set Bit in I/O Register l/O(P,b) <-1
0xFC: ldi r14, r23 ;Load Immediate Rd <-K
0xFE: ldi r15, r0 ;Load Immediate Rd <-K
0x100: rcall +0x184 ;Relative Subroutine Call, me goto: 0x1BA
0x102: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0x106
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0x104: sbi 0x15, 0x5 ;Set Bit in I/O Register l/O(P,b) <-1
0x106: ldi r30, r10 ;Load Immediate Rd <-K
0x108: ldi r15, r0 ;Load Immediate Rd <-K
0x10A: rcall +0x174 ;Relative Subroutine Call, me goto: 0x1BA
0x10C: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0x110
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0x10E: sbi 0x15, 0x4 ;Set Bit in I/O Register l/O(P,b) <-1
0x110: ldi r14, r15 ;Load Immediate Rd <-K
0x112: ldi r15, r0 ;Load Immediate Rd <-K
0x114: rcall +0x164 ;Relative Subroutine Call, me goto: 0x1BA
0x116: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0x11A
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0x118: sbi 0x15, 0x3 ;Set Bit in I/O Register l/O(P,b) <-1
0x11A: ldi r14, r5 ;Load Immediate Rd <-K
0x11C: ldi r15, r0 ;Load Immediate Rd <-K
0x11E: rcall +0x154 ;Relative Subroutine Call, me goto: 0x1BA
0x120: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0x124
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0x122: sbi 0x15, 0x2 ;Set Bit in I/O Register l/O(P,b) <-1
0x124: ldi r30, r29 ;Load Immediate Rd <-K
0x126: ldi r15, r0 ;Load Immediate Rd <-K
0x128: rcall +0x144 ;Relative Subroutine Call, me goto: 0x1BA
0x12A: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0x12E
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0x12C: sbi 0x15, 0x1 ;Set Bit in I/O Register l/O(P,b) <-1
0x12E: ldi r30, r22 ;Load Immediate Rd <-K
0x130: ldi r15, r0 ;Load Immediate Rd <-K
0x132: rcall +0x134 ;Relative Subroutine Call, me goto: 0x1BA
0x134: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0x138
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0x136: sbi 0x15, 0x0 ;Set Bit in I/O Register l/O(P,b) <-1
0x138: ldi r14, r31 ;Load Immediate Rd <-K
0x13A: ldi r15, r0 ;Load Immediate Rd <-K
0x13C: rcall +0x124 ;Relative Subroutine Call, me goto: 0x1BA
0x13E: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0x142
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0x140: sbi 0x18, 0x5 ;Set Bit in I/O Register l/O(P,b) <-1
0x142: ldi r14, r25 ;Load Immediate Rd <-K
0x144: ldi r15, r0 ;Load Immediate Rd <-K
0x146: rcall +0x114 ;Relative Subroutine Call, me goto: 0x1BA
0x148: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0x14C
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0x14A: sbi 0x18, 0x4 ;Set Bit in I/O Register l/O(P,b) <-1
0x14C: ldi r14, r20 ;Load Immediate Rd <-K
0x14E: ldi r15, r0 ;Load Immediate Rd <-K
0x150: rcall +0x104 ;Relative Subroutine Call, me goto: 0x1BA
0x152: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0x156
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0x154: sbi 0x18, 0x3 ;Set Bit in I/O Register l/O(P,b) <-1
0x156: ldi r30, r15 ;Load Immediate Rd <-K
0x158: ldi r15, r0 ;Load Immediate Rd <-K
0x15A: rcall +0x94 ;Relative Subroutine Call, me goto: 0x1BA
0x15C: brbs 0x0, +0x2 ;Branch if Status Flag Set => if (SREG(C)=1) then goto 0x160
Equivalent: brcs +0x2 ;Branch if Carry Set if(C=1)thenPC<-PC + k+1
0x15E: sbi 0x18, 0x2 ;Set Bit in I/O Register l/O(P,b) <-1
0x160: ret ;no comments
0x162: ldi r30, r29 ;Load Immediate Rd <-K
0x164: out 0x17, r30 ;Out Port P<-Rr
0x166: ldi r30, r31 ;Load Immediate Rd <-K
0x168: out 0x14, r30 ;Out Port P<-Rr
0x16A: ser r30 ;Set Register Rd<-$FF
0x16C: out 0x11, r30 ;Out Port P<-Rr
0x16E: ldi r14, r0 ;Load Immediate Rd <-K
0x170: out 0x8, r30 ;Out Port P<-Rr
0x172: mov r26, r7 ;Move Between Registers Rd<-Rr
0x174: ldi r14, r0 ;Load Immediate Rd <-K
0x176: rcall +0x72 ;Relative Subroutine Call, me goto: 0x1C0
0x178: mov r0, r30 ;Move Between Registers Rd<-Rr
0x17A: ldi r10, r0 ;Load Immediate Rd <-K
0x17C: sbic 0x1, r 0x6 ;Skip if Bit in I/O Register Cleared if (P(b)=0) PC<-PC + 2or3
0x17E: ldi r10, r1 ;Load Immediate Rd <-K
0x180: ldi r14, r1 ;Load Immediate Rd <-K
0x182: rcall +0x60 ;Relative Subroutine Call, me goto: 0x1C0
0x184: tst r30, r0 ;Test for Zero or Minus Rd <- Rd . Rd
; equivalent function = and r30, r0 ;Logical AND Registers Rd <- Rd . Rr
0x186: brbs 0x1, +0x4 ;Branch if Status Flag Set => if (SREG(Z)=1) then goto 0x18C
Equivalent: breq +0x4 ;Branch if Equal if(Z=1)thenPC<-PC + k + 1
0x188: ldi r14, r1 ;Load Immediate Rd <-K
0x18A: mov r6, r30 ;Move Between Registers Rd<-Rr
0x18C: ldi r14, r0 ;Load Immediate Rd <-K
0x18E: sbic 0x1, r 0x6 ;Skip if Bit in I/O Register Cleared if (P(b)=0) PC<-PC + 2or3
0x190: ldi r14, r1 ;Load Immediate Rd <-K
0x192: mov r7, r30 ;Move Between Registers Rd<-Rr
0x194: ldi r14, r1 ;Load Immediate Rd <-K
0x196: cp r30, r6 ;Rotate Left Through Carry Rd(0)<-C,Rd(n+1)<- Rd(n),C<-Rd(7)
0x198: brbc 0x1, +0x10 ;Branch if Status Flag Cleared => if (SREG(Z)=0) then goto 0x1AA
Equivalent: breq +0x10 ;Branch if Equal if(Z=1)thenPC<-PC + k + 1
0x19A: eor r6, r6 ;Exclusive OR Registers Rd <- Rd ffl Rr
; equivalent function = clr r102 ;Clear Register Rd <- Rd ffi Rd
0x19C: ldi r14, r0 ;Load Immediate Rd <-K
0x19E: out 0x12, r30 ;Out Port P<-Rr
0x1A0: out 0x15, r30 ;Out Port P<-Rr
0x1A2: out 0x18, r30 ;Out Port P<-Rr
0x1A4: rcall -0x280 ;Relative Subroutine Call, me goto: 0x8E
0x1A6: eor r4, r4 ;Exclusive OR Registers Rd <- Rd ffl Rr
; equivalent function = clr r68 ;Clear Register Rd <- Rd ffi Rd
0x1A8: eor r5, r5 ;Exclusive OR Registers Rd <- Rd ffl Rr
; equivalent function = clr r85 ;Clear Register Rd <- Rd ffi Rd
0x1AA: ldi r24, r1 ;Load Immediate Rd <-K
0x1AC: dec r24 ;Decrement Rd <- Rd - 1
0x1AE: brbc 0x1, -0x4 ;Branch if Status Flag Cleared => if (SREG(Z)=0) then goto 0x1AC
Equivalent: breq -0x4 ;Branch if Equal if(Z=1)thenPC<-PC + k + 1
0x1B0: movw r30, r4 ;Copy Register Word Rd+1:Rd<-Rr+1:Rr
0x1B2: adiw r30, 0x1 ;Add Immediate to Word Rdh:Rdl<-Rdh:Rdl+K
0x1B4: movw r4, r30 ;Copy Register Word Rd+1:Rd<-Rr+1:Rr
0x1B6: rjmp -0x46 ;Relative Jump PC<-PC + k +1, send to 0x172
0x1B8: rjmp -0x2 ;Relative Jump PC<-PC + k +1, send to 0x1B8 - Maiby, this is a Stop Program
0x1BA: cp r30, r4 ;Rotate Left Through Carry Rd(0)<-C,Rd(n+1)<- Rd(n),C<-Rd(7)
0x1BC: cpc r31, r5 ;Compare with Carry Rd-Rr-C
0x1BE: ret ;no comments
0x1C0: cp r30, r26 ;Rotate Left Through Carry Rd(0)<-C,Rd(n+1)<- Rd(n),C<-Rd(7)
0x1C2: ldi r14, r1 ;Load Immediate Rd <-K
0x1C4: brbs 0x1, +0x2 ;Branch if Status Flag Set => if (SREG(Z)=1) then goto 0x1C8
Equivalent: breq +0x2 ;Branch if Equal if(Z=1)thenPC<-PC + k + 1
0x1C6: eor r30, r30 ;Exclusive OR Registers Rd <- Rd ffl Rr
; equivalent function = clr r1006 ;Clear Register Rd <- Rd ffi Rd
0x1C8: ret ;no comments
-
- Если hex открыть в студии то получим такой кусок кода Boвa(1541 знак., 14.03.2018 20:41)
- Странный каммент -- Maiby, this is a Stop Program. Особенно это олбанское maybe. Явно не дизассемблер сгенерировал. ldi с двумя регистровыми аргументами? Эээээ... О_о - Николай Коровин(14.03.2018 16:37 - 17:05)
- В начале листинга есть URL 404-го аффтара сего дизассемблера, что прекрасно объясняет и олбанский, и кривые ldi - MBedder(14.03.2018 17:26)
- DiAVR -> - Evgeny_CD(14.03.2018 17:46, ссылка)
- А вот примерное направление, откуда он выкопал сам этот уж0с. Чёрт, мне его уже жалко. Николай Коровин(163 знак., 14.03.2018 18:14 - 18:17, ссылка)
- So fucked up on soooo many levels O_O - Николай Коровин(14.03.2018 18:03)
- DiAVR -> - Evgeny_CD(14.03.2018 17:46, ссылка)
- ARM, AVR - какая разница! Все равно вся техника производится в Китае! (С) Брюс Уиллис - Evgeny_CD(14.03.2018 17:08)
- В начале листинга есть URL 404-го аффтара сего дизассемблера, что прекрасно объясняет и олбанский, и кривые ldi - MBedder(14.03.2018 17:26)
- Не по теме - "Search File: D:\роб стол\розраб\taho_m8.hex" - интересно, откуда такое окание? - Evgeny_CD(14.03.2018 13:44)
- Дело здесь в их официальном языке, который называется «верхне-среднесибирским». <…> fk0(1964 знак., 14.03.2018 13:51, ссылка)
- Ты, как всегда, зришь в корень :) - Evgeny_CD(14.03.2018 14:01)
- Дело здесь в их официальном языке, который называется «верхне-среднесибирским». <…> fk0(1964 знак., 14.03.2018 13:51, ссылка)