public Branch execute(Processor cpu) { Reg op1 = cpu.regs[op1Index]; cpu.of = cpu.af = cpu.cf = false; cpu.flagResult = (op1.get32() & immd); cpu.flagStatus = SZP; return Branch.None; }
public Branch execute(Processor cpu) { cpu.eip += blockLength; int tmpEip = cpu.eip + jmp; cpu.cs.checkAddress(tmpEip); cpu.eip = tmpEip; return Branch.T1; }
public Branch execute(Processor cpu) { Reg op1 = cpu.regs[op1Index]; Reg op2 = cpu.regs[op2Index]; cpu.zf(cpu.zf()); cpu.cf(((op1.get16() & (1 << (op2.get16() & (16 - 1)))) != 0)); return Branch.None; }
public Branch execute(Processor cpu) { cpu.flagOp1 = cpu.r_eax.get16(); cpu.flagOp2 = immw; cpu.flagResult = (short) (cpu.flagOp1 - cpu.flagOp2); cpu.flagIns = UCodes.SUB16; cpu.flagStatus = OSZAPC; return Branch.None; }
public Branch execute(Processor cpu) { Reg op1 = cpu.regs[op1Index]; cpu.of = cpu.af = cpu.cf = false; cpu.flagResult = (byte) (op1.get8() ^ op2.get8(cpu)); op1.set8((byte) cpu.flagResult); cpu.flagStatus = SZP; return Branch.None; }
public Branch execute(Processor cpu) { cpu.flagOp1 = op1.get32(cpu); cpu.flagResult = (-cpu.flagOp1); op1.set32(cpu, cpu.flagResult); cpu.flagIns = UCodes.NEG32; cpu.flagStatus = OSZAPC; return Branch.None; }
public Branch execute(Processor cpu) { cpu.flagOp1 = cpu.r_eax.get32(); cpu.flagOp2 = immd; cpu.flagResult = (cpu.flagOp1 - cpu.flagOp2); cpu.flagIns = UCodes.SUB32; cpu.flagStatus = OSZAPC; return Branch.None; }
public Branch execute(Processor cpu) { cpu.flagOp1 = (byte) op1.get8(cpu); cpu.flagOp2 = (byte) immb; cpu.flagResult = (byte) (cpu.flagOp1 - cpu.flagOp2); cpu.flagIns = UCodes.SUB8; cpu.flagStatus = OSZAPC; return Branch.None; }
public Branch execute(Processor cpu) { Reg op1 = cpu.regs[op1Index]; Reg op2 = cpu.regs[op2Index]; int bit = 1 << (op2.get16() & (16 - 1)); cpu.cf = (0 != (op1.get16() & bit)); cpu.flagStatus &= NCF; op1.set16((short) (op1.get16() & ~bit)); return Branch.None; }
public Branch execute(Processor cpu) { cpu.flagOp1 = (short) op1.get16(cpu); cpu.flagOp2 = (short) immw; cpu.flagResult = (short) (cpu.flagOp1 - cpu.flagOp2); op1.set16(cpu, (short) cpu.flagResult); cpu.flagIns = UCodes.SUB16; cpu.flagStatus = OSZAPC; return Branch.None; }
public Branch execute(Processor cpu) { Reg op1 = cpu.regs[op1Index]; if (op2.get16(cpu) == 0) { cpu.zf(true); } else { cpu.zf(false); op1.set16(31 - StaticOpcodes.numberOfLeadingZeros(0xFFFF & op2.get16(cpu))); } return Branch.None; }
public Branch execute(Processor cpu) { Reg op1 = cpu.regs[op1Index]; cpu.flagOp1 = op1.get32(); cpu.flagOp2 = op2.get32(cpu); cpu.flagResult = (cpu.flagOp1 - cpu.flagOp2); op1.set32(cpu.flagResult); cpu.flagIns = UCodes.SUB32; cpu.flagStatus = OSZAPC; return Branch.None; }
public Branch execute(Processor cpu) { Reg op1 = cpu.regs[op1Index]; Reg op2 = cpu.regs[op2Index]; cpu.flagOp1 = (byte) op1.get8(); cpu.flagOp2 = (byte) op2.get8(); cpu.flagResult = (byte) (cpu.flagOp1 + cpu.flagOp2); op1.set8((byte) cpu.flagResult); cpu.flagIns = UCodes.ADD8; cpu.flagStatus = OSZAPC; return Branch.None; }
public Branch execute(Processor cpu) { if (!cpu.of()) { int tmpEip = cpu.eip + jmp + blockLength; cpu.cs.checkAddress(tmpEip); cpu.eip = tmpEip; return Branch.T1; } else { cpu.eip += blockLength; return Branch.T2; } }
public Branch execute(Processor cpu) { if (cpu.r_cx.get16() == 0) { int target = (cpu.eip + jmp + blockLength) & 0xffff; cpu.cs.checkAddress(target); cpu.eip = target; return Branch.T1; } else { cpu.eip += blockLength; return Branch.T2; } }
public Branch execute(Processor cpu) { int shift = 1 & 0x1f; shift %= 16 + 1; long val = 0xFFFF & op1.get16(cpu); val |= cpu.cf() ? 1L << 16 : 0; val = (val << shift) | (val >>> (16 + 1 - shift)); op1.set16(cpu, (short) (int) val); boolean bit31 = (val & (1L << (16 - 1))) != 0; boolean bit32 = (val & (1L << (16))) != 0; cpu.cf(bit32); if (shift == 1) cpu.of(bit31 ^ bit32); return Branch.None; }
public Branch execute(Processor cpu) { int shift = cpu.r_cl.get8() & (16 - 1); int reg0 = 0xFFFF & op1.get16(cpu); int res = (reg0 << shift) | (reg0 >>> (16 - shift)); op1.set16(cpu, (short) res); boolean bit0 = (res & 1) != 0; boolean bit31 = (res & (1 << (16 - 1))) != 0; if ((0x1F & cpu.r_cl.get8()) > 0) { cpu.cf = bit0; cpu.of = bit0 ^ bit31; cpu.flagStatus &= NOFCF; } return Branch.None; }
public Branch execute(Processor cpu) { int shift = immb & (32 - 1); int reg0 = op1.get32(cpu); int res = (reg0 >>> shift) | (reg0 << (32 - shift)); op1.set32(cpu, res); boolean bit30 = (res & (1 << (32 - 2))) != 0; boolean bit31 = (res & (1 << (32 - 1))) != 0; if (shift > 0) { cpu.cf = bit31; cpu.of = bit30 ^ bit31; cpu.flagStatus &= NOFCF; } return Branch.None; }
public Branch execute(Processor cpu) { Reg op1 = cpu.regs[op1Index]; int iop1 = (short) op1.get16(); int iop2 = (short) cpu.r_eax.get16(); int res32 = (((int) (short) iop1) * ((short) iop2)); cpu.r_eax.set16((short) res32); cpu.r_edx.set16((short) (res32 >> 16)); cpu.setOSZAPC_Logic16(res32); if (res32 != (short) res32) { cpu.of(true); cpu.cf(true); } return Branch.None; }
public Branch execute(Processor cpu) { int selector = op1.get16(cpu) & 0xffff; if (selector == 0) { cpu.ldtr = SegmentFactory.NULL_SEGMENT; } else { Segment newSegment = cpu.getSegment(selector & ~0x4); if (newSegment.getType() != 0x02) throw new ProcessorException(ProcessorException.Type.GENERAL_PROTECTION, selector, true); if (!(newSegment.isPresent())) throw new ProcessorException(ProcessorException.Type.GENERAL_PROTECTION, selector, true); cpu.ldtr = newSegment; } return Branch.None; }
public Branch execute(Processor cpu) { int shift = cpu.r_cl.get8() & 0x1f; if (shift != 0) { if (shift <= 16) { cpu.flagStatus = OSZPC; } else { cpu.flagStatus = SZP; cpu.of = false; cpu.cf = false; } cpu.af = false; cpu.flagOp1 = op1.get32(cpu); cpu.flagOp2 = shift; cpu.flagResult = (cpu.flagOp1 << cpu.flagOp2); op1.set32(cpu, cpu.flagResult); cpu.flagIns = UCodes.SHL32; } return Branch.None; }
public Branch execute(Processor cpu) { Reg op2 = cpu.regs[op2Index]; int add = (cpu.cf() ? 1 : 0); cpu.flagOp1 = op1.get8(cpu); cpu.flagOp2 = op2.get8(); cpu.flagResult = (byte) (cpu.flagOp1 - (cpu.flagOp2 + add)); op1.set8(cpu, (byte) cpu.flagResult); cpu.flagIns = UCodes.SBB8; cpu.flagStatus = OSZAPC; return Branch.None; }
public Branch execute(Processor cpu) { Reg op1 = cpu.regs[op1Index]; Reg op2 = cpu.regs[op2Index]; boolean incf = cpu.cf(); cpu.flagOp1 = op1.get8(); cpu.flagOp2 = op2.get8(); cpu.flagResult = (byte) (cpu.flagOp1 + cpu.flagOp2 + (incf ? 1 : 0)); op1.set8((byte) cpu.flagResult); cpu.flagIns = UCodes.ADC8; cpu.flagStatus = OSZAPC; return Branch.None; }
public Branch execute(Processor cpu) { Reg op1 = cpu.regs[op1Index]; boolean incf = Processor.getCarryFlag( cpu.flagStatus, cpu.cf, cpu.flagOp1, cpu.flagOp2, cpu.flagResult, cpu.flagIns); cpu.flagOp1 = op1.get16(); cpu.flagOp2 = immb; cpu.flagResult = (short) (cpu.flagOp1 + cpu.flagOp2 + (incf ? 1 : 0)); op1.set16((short) cpu.flagResult); cpu.flagIns = UCodes.ADC16; cpu.flagStatus = OSZAPC; return Branch.None; }
public Branch execute(Processor cpu) { cpu.push16((short) cpu.r_ebx.get16()); return Branch.None; }
public Branch execute(Processor cpu) { Reg op1 = cpu.regs[op1Index]; int tmp = op2.get32(cpu); if (!cpu.sf()) op1.set32(tmp); return Branch.None; }
public Branch execute(Processor cpu) { cpu.of = cpu.af = cpu.cf = false; cpu.flagResult = (op1.get32(cpu) & immd); cpu.flagStatus = SZP; return Branch.None; }
public Branch execute(Processor cpu) { cpu.push32(op1.get32(cpu)); return Branch.None; }
public Branch execute(Processor cpu) { Segment seg = cpu.segs[segIndex]; if (cpu.checkIOPermissions8(cpu.r_dx.get16() & 0xffff)) StaticOpcodes.rep_outsb_a32(cpu, seg); else throw ProcessorException.GENERAL_PROTECTION_0; return Branch.None; }