def setUp(self):
self._arch_info = ArmArchitectureInformation(ARCH_ARM_MODE_ARM)
self._smt_solver = SmtSolver()
self._smt_translator = SmtTranslator(self._smt_solver,
self._arch_info.address_size)
self._ir_emulator = ReilEmulator(self._arch_info)
self._smt_translator.set_arch_alias_mapper(
self._arch_info.alias_mapper)
self._smt_translator.set_arch_registers_size(
self._arch_info.registers_size)
self._code_analyzer = CodeAnalyzer(self._smt_solver,
self._smt_translator,
self._arch_info)
self._g_classifier = GadgetClassifier(self._ir_emulator,
self._arch_info)
self._g_verifier = GadgetVerifier(self._code_analyzer, self._arch_info)
def setUp(self):
self._arch_info = ArmArchitectureInformation(ARCH_ARM_MODE_ARM)
self._smt_solver = SmtSolver()
self._smt_translator = SmtTranslator(self._smt_solver, self._arch_info.address_size)
self._ir_emulator = ReilEmulator(self._arch_info)
self._smt_translator.set_arch_alias_mapper(self._arch_info.alias_mapper)
self._smt_translator.set_arch_registers_size(self._arch_info.registers_size)
self._code_analyzer = CodeAnalyzer(self._smt_solver, self._smt_translator, self._arch_info)
self._g_classifier = GadgetClassifier(self._ir_emulator, self._arch_info)
self._g_verifier = GadgetVerifier(self._code_analyzer, self._arch_info)
class ArmGadgetClassifierTests(unittest.TestCase):
def setUp(self):
self._arch_info = ArmArchitectureInformation(ARCH_ARM_MODE_32)
self._smt_solver = SmtSolver()
self._smt_translator = SmtTranslator(self._smt_solver,
self._arch_info.address_size)
self._ir_emulator = ReilEmulator(self._arch_info.address_size)
self._ir_emulator.set_arch_registers(self._arch_info.registers_gp_all)
self._ir_emulator.set_arch_registers_size(
self._arch_info.registers_size)
self._ir_emulator.set_reg_access_mapper(self._arch_info.alias_mapper)
self._smt_translator.set_reg_access_mapper(
self._arch_info.alias_mapper)
self._smt_translator.set_arch_registers_size(
self._arch_info.registers_size)
self._code_analyzer = CodeAnalyzer(self._smt_solver,
self._smt_translator)
self._g_classifier = GadgetClassifier(self._ir_emulator,
self._arch_info)
self._g_verifier = GadgetVerifier(self._code_analyzer, self._arch_info)
def _find_and_classify_gadgets(self, binary):
g_finder = GadgetFinder(
ArmDisassembler(), binary,
ArmTranslator(translation_mode=LITE_TRANSLATION), ARCH_ARM,
ARCH_ARM_MODE_32)
g_candidates = g_finder.find(0x00000000, len(binary), instrs_depth=4)
g_classified = self._g_classifier.classify(g_candidates[0])
# Debug:
# self._print_candidates(g_candidates)
# self._print_classified(g_classified)
return g_candidates, g_classified
def test_move_register_1(self):
# testing : dst_reg <- src_reg
binary = "\x04\x00\xa0\xe1" # 0x00 : (4) mov r0, r4
binary += "\x31\xff\x2f\xe1" # 0x04 : (4) blx r1
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 2)
self.assertEquals(g_classified[0].type, GadgetType.MoveRegister)
self.assertEquals(g_classified[0].sources,
[ReilRegisterOperand("r4", 32)])
self.assertEquals(g_classified[0].destination,
[ReilRegisterOperand("r0", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 1)
self.assertTrue(
ReilRegisterOperand("r14", 32) in
g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_move_register_2(self):
# testing : dst_reg <- src_reg
binary = "\x00\x00\x84\xe2" # 0x00 : (4) add r0, r4, #0
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.MoveRegister)
self.assertEquals(g_classified[0].sources,
[ReilRegisterOperand("r4", 32)])
self.assertEquals(g_classified[0].destination,
[ReilRegisterOperand("r0", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
# TODO: test_move_register_n: mul r0, r4, #1
def test_load_constant_1(self):
# testing : dst_reg <- constant
binary = "\x0a\x20\xa0\xe3" # 0x00 : (4) mov r2, #10
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadConstant)
self.assertEquals(g_classified[0].sources,
[ReilImmediateOperand(10, 32)])
self.assertEquals(g_classified[0].destination,
[ReilRegisterOperand("r2", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertFalse(
ReilRegisterOperand("r2", 32) in
g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_constant_2(self):
# testing : dst_reg <- constant
binary = "\x02\x20\x42\xe0" # 0x00 : (4) sub r2, r2, r2
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadConstant)
self.assertEquals(g_classified[0].sources,
[ReilImmediateOperand(0, 32)])
self.assertEquals(g_classified[0].destination,
[ReilRegisterOperand("r2", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertFalse(
ReilRegisterOperand("r2", 32) in
g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_constant_3(self):
# testing : dst_reg <- constant
binary = "\x02\x20\x22\xe0" # 0x00 : (4) eor r2, r2, r2
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadConstant)
self.assertEquals(g_classified[0].sources,
[ReilImmediateOperand(0, 32)])
self.assertEquals(g_classified[0].destination,
[ReilRegisterOperand("r2", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertFalse(
ReilRegisterOperand("r2", 32) in
g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_constant_4(self):
# testing : dst_reg <- constant
binary = "\x00\x20\x02\xe2" # 0x00 : (4) and r2, r2, #0
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadConstant)
self.assertEquals(g_classified[0].sources,
[ReilImmediateOperand(0, 32)])
self.assertEquals(g_classified[0].destination,
[ReilRegisterOperand("r2", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertFalse(
ReilRegisterOperand("r2", 32) in
g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_constant_5(self):
# testing : dst_reg <- constant
binary = "\x00\x20\x02\xe2" # and r2, r2, #0
binary += "\x21\x20\x82\xe3" # orr r2, r2, #33
binary += "\x1e\xff\x2f\xe1" # bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadConstant)
self.assertEquals(g_classified[0].sources,
[ReilImmediateOperand(33, 32)])
self.assertEquals(g_classified[0].destination,
[ReilRegisterOperand("r2", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertFalse(
ReilRegisterOperand("r2", 32) in
g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_arithmetic_add_1(self):
# testing : dst_reg <- src1_reg + src2_reg
binary = "\x08\x00\x84\xe0" # 0x00 : (4) add r0, r4, r8
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.Arithmetic)
self.assertEquals(
g_classified[0].sources,
[ReilRegisterOperand("r4", 32),
ReilRegisterOperand("r8", 32)])
self.assertEquals(g_classified[0].destination,
[ReilRegisterOperand("r0", 32)])
self.assertEquals(g_classified[0].operation, "+")
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_arithmetic_sub_1(self):
# testing : dst_reg <- src1_reg + src2_reg
binary = "\x08\x00\x44\xe0" # 0x00 : (4) sub r0, r4, r8
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.Arithmetic)
self.assertEquals(
g_classified[0].sources,
[ReilRegisterOperand("r4", 32),
ReilRegisterOperand("r8", 32)])
self.assertEquals(g_classified[0].destination,
[ReilRegisterOperand("r0", 32)])
self.assertEquals(g_classified[0].operation, "-")
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_memory_1(self):
# testing : dst_reg <- m[src_reg]
binary = "\x00\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadMemory)
self.assertEquals(
g_classified[0].sources,
[ReilRegisterOperand("r4", 32),
ReilImmediateOperand(0x0, 32)])
self.assertEquals(g_classified[0].destination,
[ReilRegisterOperand("r3", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_memory_2(self):
# testing : dst_reg <- m[src_reg + offset]
binary = "\x33\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4 + 0x33]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadMemory)
self.assertEquals(
g_classified[0].sources,
[ReilRegisterOperand("r4", 32),
ReilImmediateOperand(0x33, 32)])
self.assertEquals(g_classified[0].destination,
[ReilRegisterOperand("r3", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
# TODO: ARM's ldr rd, [rn, r2] is not a valid classification right now
def test_store_memory_1(self):
# testing : dst_reg <- m[src_reg]
binary = "\x00\x30\x84\xe5" # 0x00 : (4) str r3, [r4]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.StoreMemory)
self.assertEquals(g_classified[0].sources,
[ReilRegisterOperand("r3", 32)])
self.assertEquals(
g_classified[0].destination,
[ReilRegisterOperand("r4", 32),
ReilImmediateOperand(0x0, 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_store_memory_2(self):
# testing : dst_reg <- m[src_reg + offset]
binary = "\x33\x30\x84\xe5" # 0x00 : (4) str r3, [r4 + 0x33]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.StoreMemory)
self.assertEquals(g_classified[0].sources,
[ReilRegisterOperand("r3", 32)])
self.assertEquals(
g_classified[0].destination,
[ReilRegisterOperand("r4", 32),
ReilImmediateOperand(0x33, 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_arithmetic_load_add_1(self):
# testing : dst_reg <- dst_reg + mem[src_reg]
binary = "\x00\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4]
binary += "\x03\x00\x80\xe0" # 0x00 : (4) add r0, r0, r3
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 2)
self.assertEquals(g_classified[1].type, GadgetType.ArithmeticLoad)
self.assertEquals(g_classified[1].sources, [
ReilRegisterOperand("r0", 32),
ReilRegisterOperand("r4", 32),
ReilImmediateOperand(0x0, 32)
])
self.assertEquals(g_classified[1].destination,
[ReilRegisterOperand("r0", 32)])
self.assertEquals(g_classified[1].operation, "+")
self.assertEquals(len(g_classified[1].modified_registers), 1)
self.assertFalse(
ReilRegisterOperand("r0", 32) in
g_classified[1].modified_registers)
self.assertTrue(
ReilRegisterOperand("r3", 32) in
g_classified[1].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[1]))
def test_arithmetic_load_add_2(self):
# testing : dst_reg <- dst_reg + mem[src_reg + offset]
binary = "\x22\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4, 0x22]
binary += "\x03\x00\x80\xe0" # 0x00 : (4) add r0, r0, r3
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 2)
self.assertEquals(g_classified[1].type, GadgetType.ArithmeticLoad)
self.assertEquals(g_classified[1].sources, [
ReilRegisterOperand("r0", 32),
ReilRegisterOperand("r4", 32),
ReilImmediateOperand(0x22, 32)
])
self.assertEquals(g_classified[1].destination,
[ReilRegisterOperand("r0", 32)])
self.assertEquals(g_classified[1].operation, "+")
self.assertEquals(len(g_classified[1].modified_registers), 1)
self.assertFalse(
ReilRegisterOperand("r0", 32) in
g_classified[1].modified_registers)
self.assertTrue(
ReilRegisterOperand("r3", 32) in
g_classified[1].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[1]))
def test_arithmetic_store_add_1(self):
# testing : m[dst_reg] <- m[dst_reg] + src_reg
binary = "\x00\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4]
binary += "\x03\x30\x80\xe0" # 0x00 : (4) add r3, r0, r3
binary += "\x00\x30\x84\xe5" # 0x00 : (4) str r3, [r4]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 2)
self.assertEquals(g_classified[1].type, GadgetType.ArithmeticStore)
self.assertEquals(g_classified[1].sources, [
ReilRegisterOperand("r4", 32),
ReilImmediateOperand(0x0, 32),
ReilRegisterOperand("r0", 32)
])
self.assertEquals(
g_classified[1].destination,
[ReilRegisterOperand("r4", 32),
ReilImmediateOperand(0x0, 32)])
self.assertEquals(g_classified[1].operation, "+")
self.assertEquals(len(g_classified[1].modified_registers), 1)
self.assertFalse(
ReilRegisterOperand("r4", 32) in
g_classified[1].modified_registers)
self.assertTrue(
ReilRegisterOperand("r3", 32) in
g_classified[1].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[1]))
def test_arithmetic_store_add_2(self):
# testing : dst_reg <- dst_reg + mem[src_reg + offset]
binary = "\x22\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4, 0x22]
binary += "\x03\x30\x80\xe0" # 0x00 : (4) add r3, r0, r3
binary += "\x22\x30\x84\xe5" # 0x00 : (4) str r3, [r4, 0x22]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 2)
self.assertEquals(g_classified[1].type, GadgetType.ArithmeticStore)
self.assertEquals(g_classified[1].sources, [
ReilRegisterOperand("r4", 32),
ReilImmediateOperand(0x22, 32),
ReilRegisterOperand("r0", 32)
])
self.assertEquals(
g_classified[1].destination,
[ReilRegisterOperand("r4", 32),
ReilImmediateOperand(0x22, 32)])
self.assertEquals(g_classified[1].operation, "+")
self.assertEquals(len(g_classified[1].modified_registers), 1)
self.assertFalse(
ReilRegisterOperand("r4", 32) in
g_classified[1].modified_registers)
self.assertTrue(
ReilRegisterOperand("r3", 32) in
g_classified[1].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[1]))
def _print_candidates(self, candidates):
print "Candidates :"
for gadget in candidates:
print gadget
print "-" * 10
def _print_classified(self, classified):
print "Classified :"
for gadget in classified:
print gadget
print gadget.type
print "-" * 10
class ArmGadgetClassifierTests(unittest.TestCase):
def setUp(self):
self._arch_info = ArmArchitectureInformation(ARCH_ARM_MODE_32)
self._smt_solver = SmtSolver()
self._smt_translator = SmtTranslator(self._smt_solver, self._arch_info.address_size)
self._ir_emulator = ReilEmulator(self._arch_info.address_size)
self._ir_emulator.set_arch_registers(self._arch_info.registers_gp_all)
self._ir_emulator.set_arch_registers_size(self._arch_info.registers_size)
self._ir_emulator.set_reg_access_mapper(self._arch_info.alias_mapper)
self._smt_translator.set_reg_access_mapper(self._arch_info.alias_mapper)
self._smt_translator.set_arch_registers_size(self._arch_info.registers_size)
self._code_analyzer = CodeAnalyzer(self._smt_solver, self._smt_translator)
self._g_classifier = GadgetClassifier(self._ir_emulator, self._arch_info)
self._g_verifier = GadgetVerifier(self._code_analyzer, self._arch_info)
def _find_and_classify_gadgets(self, binary):
g_finder = GadgetFinder(ArmDisassembler(), binary, ArmTranslator(translation_mode=LITE_TRANSLATION), ARCH_ARM, ARCH_ARM_MODE_32)
g_candidates = g_finder.find(0x00000000, len(binary), instrs_depth=4)
g_classified = self._g_classifier.classify(g_candidates[0])
# Debug:
# self._print_candidates(g_candidates)
# self._print_classified(g_classified)
return g_candidates, g_classified
def test_move_register_1(self):
# testing : dst_reg <- src_reg
binary = "\x04\x00\xa0\xe1" # 0x00 : (4) mov r0, r4
binary += "\x31\xff\x2f\xe1" # 0x04 : (4) blx r1
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 2)
self.assertEquals(g_classified[0].type, GadgetType.MoveRegister)
self.assertEquals(g_classified[0].sources, [ReilRegisterOperand("r4", 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r0", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 1)
self.assertTrue(ReilRegisterOperand("r14", 32) in g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_move_register_2(self):
# testing : dst_reg <- src_reg
binary = "\x00\x00\x84\xe2" # 0x00 : (4) add r0, r4, #0
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.MoveRegister)
self.assertEquals(g_classified[0].sources, [ReilRegisterOperand("r4", 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r0", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
# TODO: test_move_register_n: mul r0, r4, #1
def test_load_constant_1(self):
# testing : dst_reg <- constant
binary = "\x0a\x20\xa0\xe3" # 0x00 : (4) mov r2, #10
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadConstant)
self.assertEquals(g_classified[0].sources, [ReilImmediateOperand(10, 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r2", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertFalse(ReilRegisterOperand("r2", 32) in g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_constant_2(self):
# testing : dst_reg <- constant
binary = "\x02\x20\x42\xe0" # 0x00 : (4) sub r2, r2, r2
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadConstant)
self.assertEquals(g_classified[0].sources, [ReilImmediateOperand(0, 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r2", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertFalse(ReilRegisterOperand("r2", 32) in g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_constant_3(self):
# testing : dst_reg <- constant
binary = "\x02\x20\x22\xe0" # 0x00 : (4) eor r2, r2, r2
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadConstant)
self.assertEquals(g_classified[0].sources, [ReilImmediateOperand(0, 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r2", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertFalse(ReilRegisterOperand("r2", 32) in g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_constant_4(self):
# testing : dst_reg <- constant
binary = "\x00\x20\x02\xe2" # 0x00 : (4) and r2, r2, #0
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadConstant)
self.assertEquals(g_classified[0].sources, [ReilImmediateOperand(0, 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r2", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertFalse(ReilRegisterOperand("r2", 32) in g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_constant_5(self):
# testing : dst_reg <- constant
binary = "\x00\x20\x02\xe2" # and r2, r2, #0
binary += "\x21\x20\x82\xe3" # orr r2, r2, #33
binary += "\x1e\xff\x2f\xe1" # bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadConstant)
self.assertEquals(g_classified[0].sources, [ReilImmediateOperand(33, 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r2", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertFalse(ReilRegisterOperand("r2", 32) in g_classified[0].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_arithmetic_add_1(self):
# testing : dst_reg <- src1_reg + src2_reg
binary = "\x08\x00\x84\xe0" # 0x00 : (4) add r0, r4, r8
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.Arithmetic)
self.assertEquals(g_classified[0].sources, [ReilRegisterOperand("r4", 32), ReilRegisterOperand("r8", 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r0", 32)])
self.assertEquals(g_classified[0].operation, "+")
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_arithmetic_sub_1(self):
# testing : dst_reg <- src1_reg + src2_reg
binary = "\x08\x00\x44\xe0" # 0x00 : (4) sub r0, r4, r8
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.Arithmetic)
self.assertEquals(g_classified[0].sources, [ReilRegisterOperand("r4", 32), ReilRegisterOperand("r8", 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r0", 32)])
self.assertEquals(g_classified[0].operation, "-")
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_memory_1(self):
# testing : dst_reg <- m[src_reg]
binary = "\x00\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadMemory)
self.assertEquals(g_classified[0].sources, [ReilRegisterOperand("r4", 32), ReilImmediateOperand(0x0, 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r3", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_load_memory_2(self):
# testing : dst_reg <- m[src_reg + offset]
binary = "\x33\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4 + 0x33]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.LoadMemory)
self.assertEquals(g_classified[0].sources, [ReilRegisterOperand("r4", 32), ReilImmediateOperand(0x33, 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r3", 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
# TODO: ARM's ldr rd, [rn, r2] is not a valid classification right now
def test_store_memory_1(self):
# testing : dst_reg <- m[src_reg]
binary = "\x00\x30\x84\xe5" # 0x00 : (4) str r3, [r4]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.StoreMemory)
self.assertEquals(g_classified[0].sources, [ReilRegisterOperand("r3", 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r4", 32), ReilImmediateOperand(0x0, 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_store_memory_2(self):
# testing : dst_reg <- m[src_reg + offset]
binary = "\x33\x30\x84\xe5" # 0x00 : (4) str r3, [r4 + 0x33]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 1)
self.assertEquals(g_classified[0].type, GadgetType.StoreMemory)
self.assertEquals(g_classified[0].sources, [ReilRegisterOperand("r3", 32)])
self.assertEquals(g_classified[0].destination, [ReilRegisterOperand("r4", 32), ReilImmediateOperand(0x33, 32)])
self.assertEquals(len(g_classified[0].modified_registers), 0)
self.assertTrue(self._g_verifier.verify(g_classified[0]))
def test_arithmetic_load_add_1(self):
# testing : dst_reg <- dst_reg + mem[src_reg]
binary = "\x00\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4]
binary += "\x03\x00\x80\xe0" # 0x00 : (4) add r0, r0, r3
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 2)
self.assertEquals(g_classified[1].type, GadgetType.ArithmeticLoad)
self.assertEquals(g_classified[1].sources, [ReilRegisterOperand("r0", 32), ReilRegisterOperand("r4", 32), ReilImmediateOperand(0x0, 32)])
self.assertEquals(g_classified[1].destination, [ReilRegisterOperand("r0", 32)])
self.assertEquals(g_classified[1].operation, "+")
self.assertEquals(len(g_classified[1].modified_registers), 1)
self.assertFalse(ReilRegisterOperand("r0", 32) in g_classified[1].modified_registers)
self.assertTrue(ReilRegisterOperand("r3", 32) in g_classified[1].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[1]))
def test_arithmetic_load_add_2(self):
# testing : dst_reg <- dst_reg + mem[src_reg + offset]
binary = "\x22\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4, 0x22]
binary += "\x03\x00\x80\xe0" # 0x00 : (4) add r0, r0, r3
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 2)
self.assertEquals(g_classified[1].type, GadgetType.ArithmeticLoad)
self.assertEquals(g_classified[1].sources, [ReilRegisterOperand("r0", 32), ReilRegisterOperand("r4", 32), ReilImmediateOperand(0x22, 32)])
self.assertEquals(g_classified[1].destination, [ReilRegisterOperand("r0", 32)])
self.assertEquals(g_classified[1].operation, "+")
self.assertEquals(len(g_classified[1].modified_registers), 1)
self.assertFalse(ReilRegisterOperand("r0", 32) in g_classified[1].modified_registers)
self.assertTrue(ReilRegisterOperand("r3", 32) in g_classified[1].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[1]))
def test_arithmetic_store_add_1(self):
# testing : m[dst_reg] <- m[dst_reg] + src_reg
binary = "\x00\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4]
binary += "\x03\x30\x80\xe0" # 0x00 : (4) add r3, r0, r3
binary += "\x00\x30\x84\xe5" # 0x00 : (4) str r3, [r4]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 2)
self.assertEquals(g_classified[1].type, GadgetType.ArithmeticStore)
self.assertEquals(g_classified[1].sources, [ReilRegisterOperand("r4", 32), ReilImmediateOperand(0x0, 32), ReilRegisterOperand("r0", 32)])
self.assertEquals(g_classified[1].destination, [ReilRegisterOperand("r4", 32), ReilImmediateOperand(0x0, 32)])
self.assertEquals(g_classified[1].operation, "+")
self.assertEquals(len(g_classified[1].modified_registers), 1)
self.assertFalse(ReilRegisterOperand("r4", 32) in g_classified[1].modified_registers)
self.assertTrue(ReilRegisterOperand("r3", 32) in g_classified[1].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[1]))
def test_arithmetic_store_add_2(self):
# testing : dst_reg <- dst_reg + mem[src_reg + offset]
binary = "\x22\x30\x94\xe5" # 0x00 : (4) ldr r3, [r4, 0x22]
binary += "\x03\x30\x80\xe0" # 0x00 : (4) add r3, r0, r3
binary += "\x22\x30\x84\xe5" # 0x00 : (4) str r3, [r4, 0x22]
binary += "\x1e\xff\x2f\xe1" # 0x04 : (4) bx lr
g_candidates, g_classified = self._find_and_classify_gadgets(binary)
self.assertEquals(len(g_candidates), 1)
self.assertEquals(len(g_classified), 2)
self.assertEquals(g_classified[1].type, GadgetType.ArithmeticStore)
self.assertEquals(g_classified[1].sources, [ReilRegisterOperand("r4", 32), ReilImmediateOperand(0x22, 32), ReilRegisterOperand("r0", 32)])
self.assertEquals(g_classified[1].destination, [ReilRegisterOperand("r4", 32), ReilImmediateOperand(0x22, 32)])
self.assertEquals(g_classified[1].operation, "+")
self.assertEquals(len(g_classified[1].modified_registers), 1)
self.assertFalse(ReilRegisterOperand("r4", 32) in g_classified[1].modified_registers)
self.assertTrue(ReilRegisterOperand("r3", 32) in g_classified[1].modified_registers)
self.assertTrue(self._g_verifier.verify(g_classified[1]))
def _print_candidates(self, candidates):
print "Candidates :"
for gadget in candidates:
print gadget
print "-" * 10
def _print_classified(self, classified):
print "Classified :"
for gadget in classified:
print gadget
print gadget.type
print "-" * 10
