Beispiel #1
0
def test_trace(trace):
    Triton.setArchitecture(ARCH.X86)
    symbolization_init()

    astCtxt = Triton.getAstContext()

    for opcode in trace:
        instruction = Instruction()
        instruction.setOpcode(opcode)
        Triton.processing(instruction)
        print(instruction.getDisassembly())

        if instruction.isBranch():
            # Opaque Predicate AST
            op_ast = Triton.getPathPredicate()
            # Try another model
            model = Triton.getModel(astCtxt.lnot(op_ast))
            if model:
                print("not an opaque predicate")
            else:
                if instruction.isConditionTaken():
                    print("opaque predicate: always taken")
                else:
                    print("opaque predicate: never taken")

    print('----------------------------------')
    return
def test_trace(trace):
    Triton.setArchitecture(ARCH.X86)
    symbolization_init()

    astCtxt = Triton.getAstContext()

    for opcode in trace:
        instruction = Instruction()
        instruction.setOpcode(opcode)
        Triton.processing(instruction)
        print instruction.getDisassembly()

        if instruction.isBranch():
            # Opaque Predicate AST
            op_ast = Triton.getPathConstraintsAst()
            # Try another model
            model = Triton.getModel(astCtxt.lnot(op_ast))
            if model:
                print "not an opaque predicate"
            else:
                if instruction.isConditionTaken():
                    print "opaque predicate: always taken"
                else:
                    print "opaque predicate: never taken"

    print '----------------------------------'
    return
Beispiel #3
0
class TestInstruction(unittest.TestCase):

    """Testing the Instruction class."""

    def setUp(self):
        """Define and process the instruction to test."""
        self.Triton = TritonContext()
        self.Triton.setArchitecture(ARCH.X86_64)
        self.inst = Instruction()
        self.inst.setOpcode("\x48\x01\xd8")  # add rax, rbx
        self.inst.setAddress(0x400000)
        self.Triton.setConcreteRegisterValue(self.Triton.registers.rax, 0x1122334455667788)
        self.Triton.setConcreteRegisterValue(self.Triton.registers.rbx, 0x8877665544332211)
        self.Triton.processing(self.inst)

    def test_address(self):
        """Check instruction current and next address."""
        self.assertEqual(self.inst.getAddress(), 0x400000)
        self.assertEqual(self.inst.getNextAddress(), 0x400003)

    def test_memory(self):
        """Check memory access."""
        self.assertListEqual(self.inst.getLoadAccess(), [])
        self.assertListEqual(self.inst.getStoreAccess(), [])
        self.assertFalse(self.inst.isMemoryWrite())
        self.assertFalse(self.inst.isMemoryRead())

    def test_registers(self):
        """Check register access."""
        self.assertEqual(len(self.inst.getReadRegisters()), 2, "access RAX and RBX")
        self.assertEqual(len(self.inst.getWrittenRegisters()), 8, "write in RAX, RIP, AF, XF, OF, PF, SF and ZF")

    def test_taints(self):
        """Check taints attributes."""
        self.assertFalse(self.inst.isTainted())

    def test_prefix(self):
        """Check prefix data."""
        self.assertFalse(self.inst.isPrefixed())
        self.assertEqual(self.inst.getPrefix(), PREFIX.INVALID)

    def test_control_flow(self):
        """Check control flow flags."""
        self.assertFalse(self.inst.isControlFlow(), "It is not a jmp, ret or call")
        self.assertFalse(self.inst.isBranch(), "It is not a jmp")

    def test_condition(self):
        """Check condition flags."""
        self.assertFalse(self.inst.isConditionTaken())

    def test_opcode(self):
        """Check opcode informations."""
        self.assertEqual(self.inst.getOpcode(), "\x48\x01\xd8")
        self.assertEqual(self.inst.getType(), OPCODE.ADD)

    def test_thread(self):
        """Check threads information."""
        self.assertEqual(self.inst.getThreadId(), 0)

    def test_operand(self):
        """Check operand information."""
        self.assertEqual(len(self.inst.getOperands()), 2)
        self.assertEqual(self.inst.getOperands()[0].getName(), "rax")
        self.assertEqual(self.inst.getOperands()[1].getName(), "rbx")
        with self.assertRaises(Exception):
            self.inst.getOperands()[2]

    def test_symbolic(self):
        """Check symbolic information."""
        self.assertEqual(len(self.inst.getSymbolicExpressions()), 8)

    def test_size(self):
        """Check size information."""
        self.assertEqual(self.inst.getSize(), 3)

    def test_disassembly(self):
        """Check disassembly equivalent."""
        self.assertEqual(self.inst.getDisassembly(), "add rax, rbx")
Beispiel #4
0
class TestInstruction(unittest.TestCase):

    """Testing the Instruction class."""

    def setUp(self):
        """Define and process the instruction to test."""
        self.Triton = TritonContext()
        self.Triton.setArchitecture(ARCH.X86_64)
        self.inst = Instruction()
        self.inst.setOpcode(b"\x48\x01\xd8")  # add rax, rbx
        self.inst.setAddress(0x400000)
        self.Triton.setConcreteRegisterValue(self.Triton.registers.rax, 0x1122334455667788)
        self.Triton.setConcreteRegisterValue(self.Triton.registers.rbx, 0x8877665544332211)
        self.Triton.processing(self.inst)

    def test_address(self):
        """Check instruction current and next address."""
        self.assertEqual(self.inst.getAddress(), 0x400000)
        self.assertEqual(self.inst.getNextAddress(), 0x400003)

        inst = Instruction()
        inst.setAddress(-1)
        self.assertEqual(inst.getAddress(), 0xffffffffffffffff)

        inst.setAddress(-2)
        self.assertEqual(inst.getAddress(), 0xfffffffffffffffe)

        inst.setAddress(-3)
        self.assertEqual(inst.getAddress(), 0xfffffffffffffffd)

    def test_memory(self):
        """Check memory access."""
        self.assertListEqual(self.inst.getLoadAccess(), [])
        self.assertListEqual(self.inst.getStoreAccess(), [])
        self.assertFalse(self.inst.isMemoryWrite())
        self.assertFalse(self.inst.isMemoryRead())

    def test_registers(self):
        """Check register access."""
        self.assertEqual(len(self.inst.getReadRegisters()), 2, "access RAX and RBX")
        self.assertEqual(len(self.inst.getWrittenRegisters()), 8, "write in RAX, RIP, AF, XF, OF, PF, SF and ZF")

    def test_taints(self):
        """Check taints attributes."""
        self.assertFalse(self.inst.isTainted())

    def test_prefix(self):
        """Check prefix data."""
        self.assertFalse(self.inst.isPrefixed())
        self.assertEqual(self.inst.getPrefix(), PREFIX.X86.INVALID)

    def test_control_flow(self):
        """Check control flow flags."""
        self.assertFalse(self.inst.isControlFlow(), "It is not a jmp, ret or call")
        self.assertFalse(self.inst.isBranch(), "It is not a jmp")

    def test_condition(self):
        """Check condition flags."""
        self.assertFalse(self.inst.isConditionTaken())

    def test_opcode(self):
        """Check opcode informations."""
        self.assertEqual(self.inst.getOpcode(), b"\x48\x01\xd8")
        self.assertEqual(self.inst.getType(), OPCODE.X86.ADD)

    def test_thread(self):
        """Check threads information."""
        self.assertEqual(self.inst.getThreadId(), 0)

    def test_operand(self):
        """Check operand information."""
        self.assertEqual(len(self.inst.getOperands()), 2)
        self.assertEqual(self.inst.getOperands()[0].getName(), "rax")
        self.assertEqual(self.inst.getOperands()[1].getName(), "rbx")
        with self.assertRaises(Exception):
            self.inst.getOperands()[2]

    def test_symbolic(self):
        """Check symbolic information."""
        self.assertEqual(len(self.inst.getSymbolicExpressions()), 8)

    def test_size(self):
        """Check size information."""
        self.assertEqual(self.inst.getSize(), 3)

    def test_disassembly(self):
        """Check disassembly equivalent."""
        self.assertEqual(self.inst.getDisassembly(), "add rax, rbx")