Security analysis tool for EVM bytecode. Supports smart contracts built for Ethereum, Hedera, Quorum, Vechain, Roostock, Tron and other EVM-compatible blockchains.
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mythril/tests/disassembler/asm.py

125 lines
3.0 KiB

from mythril.disassembler.asm import *
import pytest
valid_names = [("PUSH1", 0x60), ("STOP", 0x0), ("RETURN", 0xF3)]
@pytest.mark.parametrize("operation_name, hex_value", valid_names)
def test_get_opcode(operation_name: str, hex_value: int):
# Act
return_value = get_opcode_from_name(operation_name)
# Assert
assert return_value == hex_value
def test_get_unknown_opcode():
operation_name = "definitely unknown"
# Act
with pytest.raises(RuntimeError):
get_opcode_from_name(operation_name)
sequence_match_test_data = [
# Normal no match
(
(["PUSH1"], ["EQ"]),
[{"opcode": "PUSH1"}, {"opcode": "PUSH3"}, {"opcode": "EQ"}],
1,
False,
),
# Normal match
(
(["PUSH1"], ["EQ"]),
[{"opcode": "PUSH1"}, {"opcode": "PUSH1"}, {"opcode": "EQ"}],
1,
True,
),
# Out of bounds pattern
(
(["PUSH1"], ["EQ"]),
[{"opcode": "PUSH1"}, {"opcode": "PUSH3"}, {"opcode": "EQ"}],
3,
False,
),
(
(["PUSH1"], ["EQ"]),
[{"opcode": "PUSH1"}, {"opcode": "PUSH3"}, {"opcode": "EQ"}],
2,
False,
),
# Double option match
(
(["PUSH1", "PUSH3"], ["EQ"]),
[{"opcode": "PUSH1"}, {"opcode": "PUSH1"}, {"opcode": "EQ"}],
1,
True,
),
(
(["PUSH1", "PUSH3"], ["EQ"]),
[{"opcode": "PUSH1"}, {"opcode": "PUSH3"}, {"opcode": "EQ"}],
1,
True,
),
# Double option no match
(
(["PUSH1", "PUSH3"], ["EQ"]),
[{"opcode": "PUSH1"}, {"opcode": "PUSH3"}, {"opcode": "EQ"}],
0,
False,
),
]
@pytest.mark.parametrize(
"pattern, instruction_list, index, expected_result", sequence_match_test_data
)
def test_is_sequence_match(pattern, instruction_list, index, expected_result):
# Act
return_value = is_sequence_match(pattern, instruction_list, index)
# Assert
assert return_value == expected_result
find_sequence_match_test_data = [
# Normal no match
(
(["PUSH1"], ["EQ"]),
[{"opcode": "PUSH1"}, {"opcode": "PUSH3"}, {"opcode": "EQ"}],
[],
),
# Normal match
(
(["PUSH1"], ["EQ"]),
[
{"opcode": "PUSH1"},
{"opcode": "PUSH1"},
{"opcode": "EQ"},
{"opcode": "PUSH1"},
{"opcode": "EQ"},
],
[1, 3],
),
]
@pytest.mark.parametrize(
"pattern, instruction_list, expected_result", find_sequence_match_test_data
)
def test_find_op_code_sequence(pattern, instruction_list, expected_result):
# Act
return_value = list(find_op_code_sequence(pattern, instruction_list))
# Assert
assert return_value == expected_result
def test_disassemble():
# Act
instruction_list = disassemble(b"\x00\x16\x06")
# Assert
assert instruction_list[0]["opcode"] == "STOP"
assert instruction_list[1]["opcode"] == "AND"
assert instruction_list[2]["opcode"] == "MOD"