// Copyright 2013 Dolphin Emulator Project // Licensed under GPLv2 // Refer to the license.txt file included. #include "x64Analyzer.h" bool DisassembleMov(const unsigned char *codePtr, InstructionInfo *info) { unsigned const char *startCodePtr = codePtr; u8 rex = 0; u8 codeByte = 0; u8 codeByte2 = 0; //Check for regular prefix info->operandSize = 4; info->zeroExtend = false; info->signExtend = false; info->hasImmediate = false; info->isMemoryWrite = false; u8 modRMbyte = 0; u8 sibByte = 0; bool hasModRM = false; int displacementSize = 0; if (*codePtr == 0x66) { info->operandSize = 2; codePtr++; } else if (*codePtr == 0x67) { codePtr++; } //Check for REX prefix if ((*codePtr & 0xF0) == 0x40) { rex = *codePtr; if (rex & 8) //REX.W { info->operandSize = 8; } codePtr++; } codeByte = *codePtr++; // Skip two-byte opcode byte bool twoByte = false; if(codeByte == 0x0F) { twoByte = true; codeByte2 = *codePtr++; } if (!twoByte) { if ((codeByte & 0xF0) == 0x80 || ((codeByte & 0xF8) == 0xC0 && (codeByte & 0x0E) != 0x02)) { modRMbyte = *codePtr++; hasModRM = true; } } else { if (((codeByte2 & 0xF0) == 0x00 && (codeByte2 & 0x0F) >= 0x04 && (codeByte2 & 0x0D) != 0x0D) || (codeByte2 & 0xF0) == 0x30 || codeByte2 == 0x77 || (codeByte2 & 0xF0) == 0x80 || ((codeByte2 & 0xF0) == 0xA0 && (codeByte2 & 0x07) <= 0x02) || (codeByte2 & 0xF8) == 0xC8) { // No mod R/M byte } else { modRMbyte = *codePtr++; hasModRM = true; } } if (hasModRM) { ModRM mrm(modRMbyte, rex); info->regOperandReg = mrm.reg; if (mrm.mod < 3) { if (mrm.rm == 4) { //SIB byte sibByte = *codePtr++; info->scaledReg = (sibByte >> 3) & 7; info->otherReg = (sibByte & 7); if (rex & 2) info->scaledReg += 8; if (rex & 1) info->otherReg += 8; } else { //info->scaledReg = } } if (mrm.mod == 1 || mrm.mod == 2) { if (mrm.mod == 1) displacementSize = 1; else displacementSize = 4; } } if (displacementSize == 1) info->displacement = (s32)(s8)*codePtr; else info->displacement = *((s32 *)codePtr); codePtr += displacementSize; switch (codeByte) { // writes case 0xC6: // mem <- imm8 { info->isMemoryWrite = true; info->hasImmediate = true; info->immediate = *codePtr; codePtr++; //move past immediate } break; case 0xC7: // mem <- imm16/32 { info->isMemoryWrite = true; if (info->operandSize == 2) { info->hasImmediate = true; info->immediate = *(u16*)codePtr; codePtr += 2; } else if (info->operandSize == 4) { info->hasImmediate = true; info->immediate = *(u32*)codePtr; codePtr += 4; } else if (info->operandSize == 8) { info->zeroExtend = true; info->immediate = *(u32*)codePtr; codePtr += 4; } } case 0x89: // mem <- r16/32/64 { info->isMemoryWrite = true; break; } case 0x0F: // two-byte escape { info->isMemoryWrite = false; switch (codeByte2) { case 0xB6: // movzx on byte info->zeroExtend = true; info->operandSize = 1; break; case 0xB7: // movzx on short info->zeroExtend = true; info->operandSize = 2; break; case 0xBE: // movsx on byte info->signExtend = true; info->operandSize = 1; break; case 0xBF: // movsx on short info->signExtend = true; info->operandSize = 2; break; default: return false; } break; } case 0x8A: // r8 <- mem { info->isMemoryWrite = false; if (info->operandSize == 4) { info->operandSize = 1; break; } else return false; } case 0x8B: // r16/32/64 <- mem { info->isMemoryWrite = false; break; } break; default: return false; } info->instructionSize = (int)(codePtr - startCodePtr); return true; }