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196 lines
5.4 KiB
196 lines
5.4 KiB
from mythril.laser.smt import Solver, symbol_factory, bitvec
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import z3
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import pytest
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import operator
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@pytest.mark.parametrize(
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"operation,expected",
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[
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(operator.add, z3.unsat),
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(operator.sub, z3.unsat),
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(operator.and_, z3.sat),
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(operator.or_, z3.sat),
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(operator.xor, z3.unsat),
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],
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)
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def test_bitvecfunc_arithmetic(operation, expected):
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# Arrange
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s = Solver()
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input_ = symbol_factory.BitVecVal(1, 8)
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bvf = symbol_factory.BitVecFuncSym("bvf", "sha3", 256, input_=input_)
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x = symbol_factory.BitVecSym("x", 256)
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y = symbol_factory.BitVecSym("y", 256)
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# Act
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s.add(x != y)
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s.add(operation(bvf, x) == operation(y, bvf))
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# Assert
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assert s.check() == expected
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@pytest.mark.parametrize(
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"operation,expected",
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[
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(operator.eq, z3.sat),
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(operator.ne, z3.unsat),
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(operator.lt, z3.unsat),
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(operator.le, z3.sat),
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(operator.gt, z3.unsat),
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(operator.ge, z3.sat),
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(bitvec.UGT, z3.unsat),
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(bitvec.UGE, z3.sat),
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(bitvec.ULT, z3.unsat),
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(bitvec.ULE, z3.sat),
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],
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)
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def test_bitvecfunc_bitvecfunc_comparison(operation, expected):
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# Arrange
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s = Solver()
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input1 = symbol_factory.BitVecSym("input1", 256)
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input2 = symbol_factory.BitVecSym("input2", 256)
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bvf1 = symbol_factory.BitVecFuncSym("bvf1", "sha3", 256, input_=input1)
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bvf2 = symbol_factory.BitVecFuncSym("bvf2", "sha3", 256, input_=input2)
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# Act
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s.add(operation(bvf1, bvf2))
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s.add(input1 == input2)
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# Assert
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assert s.check() == expected
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def test_bitvecfunc_bitvecfuncval_comparison():
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# Arrange
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s = Solver()
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input1 = symbol_factory.BitVecSym("input1", 256)
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input2 = symbol_factory.BitVecVal(1337, 256)
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bvf1 = symbol_factory.BitVecFuncSym("bvf1", "sha3", 256, input_=input1)
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bvf2 = symbol_factory.BitVecFuncVal(12345678910, "sha3", 256, input_=input2)
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# Act
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s.add(bvf1 == bvf2)
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# Assert
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assert s.check() == z3.sat
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assert s.model().eval(input2.raw) == 1337
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def test_bitvecfunc_nested_comparison():
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# arrange
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s = Solver()
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input1 = symbol_factory.BitVecSym("input1", 256)
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input2 = symbol_factory.BitVecSym("input2", 256)
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bvf1 = symbol_factory.BitVecFuncSym("bvf1", "sha3", 256, input_=input1)
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bvf2 = symbol_factory.BitVecFuncSym("bvf2", "sha3", 256, input_=bvf1)
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bvf3 = symbol_factory.BitVecFuncSym("bvf3", "sha3", 256, input_=input2)
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bvf4 = symbol_factory.BitVecFuncSym("bvf4", "sha3", 256, input_=bvf3)
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# Act
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s.add(input1 == input2)
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s.add(bvf2 == bvf4)
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# Assert
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assert s.check() == z3.sat
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def test_bitvecfunc_unequal_nested_comparison():
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# arrange
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s = Solver()
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input1 = symbol_factory.BitVecSym("input1", 256)
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input2 = symbol_factory.BitVecSym("input2", 256)
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bvf1 = symbol_factory.BitVecFuncSym("bvf1", "sha3", 256, input_=input1)
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bvf2 = symbol_factory.BitVecFuncSym("bvf2", "sha3", 256, input_=bvf1)
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bvf3 = symbol_factory.BitVecFuncSym("bvf3", "sha3", 256, input_=input2)
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bvf4 = symbol_factory.BitVecFuncSym("bvf4", "sha3", 256, input_=bvf3)
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# Act
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s.add(input1 != input2)
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s.add(bvf2 == bvf4)
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# Assert
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assert s.check() == z3.unsat
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def test_bitvecfunc_ext_nested_comparison():
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# arrange
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s = Solver()
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input1 = symbol_factory.BitVecSym("input1", 256)
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input2 = symbol_factory.BitVecSym("input2", 256)
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input3 = symbol_factory.BitVecSym("input3", 256)
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input4 = symbol_factory.BitVecSym("input4", 256)
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bvf1 = symbol_factory.BitVecFuncSym("bvf1", "sha3", 256, input_=input1)
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bvf2 = symbol_factory.BitVecFuncSym("bvf2", "sha3", 256, input_=bvf1 + input3)
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bvf3 = symbol_factory.BitVecFuncSym("bvf3", "sha3", 256, input_=input2)
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bvf4 = symbol_factory.BitVecFuncSym("bvf4", "sha3", 256, input_=bvf3 + input4)
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# Act
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s.add(input1 == input2)
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s.add(input3 == input4)
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s.add(bvf2 == bvf4)
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# Assert
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assert s.check() == z3.sat
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def test_bitvecfunc_ext_unequal_nested_comparison():
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# Arrange
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s = Solver()
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input1 = symbol_factory.BitVecSym("input1", 256)
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input2 = symbol_factory.BitVecSym("input2", 256)
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input3 = symbol_factory.BitVecSym("input3", 256)
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input4 = symbol_factory.BitVecSym("input4", 256)
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bvf1 = symbol_factory.BitVecFuncSym("bvf1", "sha3", 256, input_=input1)
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bvf2 = symbol_factory.BitVecFuncSym("bvf2", "sha3", 256, input_=bvf1 + input3)
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bvf3 = symbol_factory.BitVecFuncSym("bvf3", "sha3", 256, input_=input2)
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bvf4 = symbol_factory.BitVecFuncSym("bvf4", "sha3", 256, input_=bvf3 + input4)
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# Act
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s.add(input1 == input2)
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s.add(input3 != input4)
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s.add(bvf2 == bvf4)
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# Assert
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assert s.check() == z3.unsat
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def test_bitvecfunc_ext_unequal_nested_comparison_f():
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# Arrange
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s = Solver()
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input1 = symbol_factory.BitVecSym("input1", 256)
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input2 = symbol_factory.BitVecSym("input2", 256)
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input3 = symbol_factory.BitVecSym("input3", 256)
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input4 = symbol_factory.BitVecSym("input4", 256)
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bvf1 = symbol_factory.BitVecFuncSym("bvf1", "sha3", 256, input_=input1)
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bvf2 = symbol_factory.BitVecFuncSym("bvf2", "sha3", 256, input_=bvf1 + input3)
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bvf3 = symbol_factory.BitVecFuncSym("bvf3", "sha3", 256, input_=input2)
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bvf4 = symbol_factory.BitVecFuncSym("bvf4", "sha3", 256, input_=bvf3 + input4)
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# Act
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s.add(input1 != input2)
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s.add(input3 == input4)
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s.add(bvf2 == bvf4)
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# Assert
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assert s.check() == z3.unsat
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