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fixed honoring custom repr for NamedTuple if assigned by partialmethod (#14466)...
fixed honoring custom repr for NamedTuple if assigned by partialmethod (#14466) Fixes #14465. - added test `test_custom_repr_namedtuple_partialmethod`

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test_guarded_eval.py
785 lines | 20.5 KiB | text/x-python | PythonLexer
import sys
from contextlib import contextmanager
from typing import (
Annotated,
AnyStr,
NamedTuple,
Literal,
NewType,
Optional,
Protocol,
TypeGuard,
Union,
TypedDict,
)
from functools import partial
from IPython.core.guarded_eval import (
EvaluationContext,
GuardRejection,
guarded_eval,
_unbind_method,
)
from IPython.testing import decorators as dec
import pytest
if sys.version_info < (3, 11):
from typing_extensions import Self, LiteralString
else:
from typing import Self, LiteralString
if sys.version_info < (3, 12):
from typing_extensions import TypeAliasType
else:
from typing import TypeAliasType
def create_context(evaluation: str, **kwargs):
return EvaluationContext(locals=kwargs, globals={}, evaluation=evaluation)
forbidden = partial(create_context, "forbidden")
minimal = partial(create_context, "minimal")
limited = partial(create_context, "limited")
unsafe = partial(create_context, "unsafe")
dangerous = partial(create_context, "dangerous")
LIMITED_OR_HIGHER = [limited, unsafe, dangerous]
MINIMAL_OR_HIGHER = [minimal, *LIMITED_OR_HIGHER]
@contextmanager
def module_not_installed(module: str):
import sys
try:
to_restore = sys.modules[module]
del sys.modules[module]
except KeyError:
to_restore = None
try:
yield
finally:
sys.modules[module] = to_restore
def test_external_not_installed():
"""
Because attribute check requires checking if object is not of allowed
external type, this tests logic for absence of external module.
"""
class Custom:
def __init__(self):
self.test = 1
def __getattr__(self, key):
return key
with module_not_installed("pandas"):
context = limited(x=Custom())
with pytest.raises(GuardRejection):
guarded_eval("x.test", context)
@dec.skip_without("pandas")
def test_external_changed_api(monkeypatch):
"""Check that the execution rejects if external API changed paths"""
import pandas as pd
series = pd.Series([1], index=["a"])
with monkeypatch.context() as m:
m.delattr(pd, "Series")
context = limited(data=series)
with pytest.raises(GuardRejection):
guarded_eval("data.iloc[0]", context)
@dec.skip_without("pandas")
def test_pandas_series_iloc():
import pandas as pd
series = pd.Series([1], index=["a"])
context = limited(data=series)
assert guarded_eval("data.iloc[0]", context) == 1
def test_rejects_custom_properties():
class BadProperty:
@property
def iloc(self):
return [None]
series = BadProperty()
context = limited(data=series)
with pytest.raises(GuardRejection):
guarded_eval("data.iloc[0]", context)
@dec.skip_without("pandas")
def test_accepts_non_overriden_properties():
import pandas as pd
class GoodProperty(pd.Series):
pass
series = GoodProperty([1], index=["a"])
context = limited(data=series)
assert guarded_eval("data.iloc[0]", context) == 1
@dec.skip_without("pandas")
def test_pandas_series():
import pandas as pd
context = limited(data=pd.Series([1], index=["a"]))
assert guarded_eval('data["a"]', context) == 1
with pytest.raises(KeyError):
guarded_eval('data["c"]', context)
@dec.skip_without("pandas")
def test_pandas_bad_series():
import pandas as pd
class BadItemSeries(pd.Series):
def __getitem__(self, key):
return "CUSTOM_ITEM"
class BadAttrSeries(pd.Series):
def __getattr__(self, key):
return "CUSTOM_ATTR"
bad_series = BadItemSeries([1], index=["a"])
context = limited(data=bad_series)
with pytest.raises(GuardRejection):
guarded_eval('data["a"]', context)
with pytest.raises(GuardRejection):
guarded_eval('data["c"]', context)
# note: here result is a bit unexpected because
# pandas `__getattr__` calls `__getitem__`;
# FIXME - special case to handle it?
assert guarded_eval("data.a", context) == "CUSTOM_ITEM"
context = unsafe(data=bad_series)
assert guarded_eval('data["a"]', context) == "CUSTOM_ITEM"
bad_attr_series = BadAttrSeries([1], index=["a"])
context = limited(data=bad_attr_series)
assert guarded_eval('data["a"]', context) == 1
with pytest.raises(GuardRejection):
guarded_eval("data.a", context)
@dec.skip_without("pandas")
def test_pandas_dataframe_loc():
import pandas as pd
from pandas.testing import assert_series_equal
data = pd.DataFrame([{"a": 1}])
context = limited(data=data)
assert_series_equal(guarded_eval('data.loc[:, "a"]', context), data["a"])
def test_named_tuple():
class GoodNamedTuple(NamedTuple):
a: str
pass
class BadNamedTuple(NamedTuple):
a: str
def __getitem__(self, key):
return None
good = GoodNamedTuple(a="x")
bad = BadNamedTuple(a="x")
context = limited(data=good)
assert guarded_eval("data[0]", context) == "x"
context = limited(data=bad)
with pytest.raises(GuardRejection):
guarded_eval("data[0]", context)
def test_dict():
context = limited(data={"a": 1, "b": {"x": 2}, ("x", "y"): 3})
assert guarded_eval('data["a"]', context) == 1
assert guarded_eval('data["b"]', context) == {"x": 2}
assert guarded_eval('data["b"]["x"]', context) == 2
assert guarded_eval('data["x", "y"]', context) == 3
assert guarded_eval("data.keys", context)
def test_set():
context = limited(data={"a", "b"})
assert guarded_eval("data.difference", context)
def test_list():
context = limited(data=[1, 2, 3])
assert guarded_eval("data[1]", context) == 2
assert guarded_eval("data.copy", context)
def test_dict_literal():
context = limited()
assert guarded_eval("{}", context) == {}
assert guarded_eval('{"a": 1}', context) == {"a": 1}
def test_list_literal():
context = limited()
assert guarded_eval("[]", context) == []
assert guarded_eval('[1, "a"]', context) == [1, "a"]
def test_set_literal():
context = limited()
assert guarded_eval("set()", context) == set()
assert guarded_eval('{"a"}', context) == {"a"}
def test_evaluates_if_expression():
context = limited()
assert guarded_eval("2 if True else 3", context) == 2
assert guarded_eval("4 if False else 5", context) == 5
def test_object():
obj = object()
context = limited(obj=obj)
assert guarded_eval("obj.__dir__", context) == obj.__dir__
@pytest.mark.parametrize(
"code,expected",
[
["int.numerator", int.numerator],
["float.is_integer", float.is_integer],
["complex.real", complex.real],
],
)
def test_number_attributes(code, expected):
assert guarded_eval(code, limited()) == expected
def test_method_descriptor():
context = limited()
assert guarded_eval("list.copy.__name__", context) == "copy"
class HeapType:
pass
class CallCreatesHeapType:
def __call__(self) -> HeapType:
return HeapType()
class CallCreatesBuiltin:
def __call__(self) -> frozenset:
return frozenset()
class HasStaticMethod:
@staticmethod
def static_method() -> HeapType:
return HeapType()
class InitReturnsFrozenset:
def __new__(self) -> frozenset: # type:ignore[misc]
return frozenset()
class StringAnnotation:
def heap(self) -> "HeapType":
return HeapType()
def copy(self) -> "StringAnnotation":
return StringAnnotation()
CustomIntType = NewType("CustomIntType", int)
CustomHeapType = NewType("CustomHeapType", HeapType)
IntTypeAlias = TypeAliasType("IntTypeAlias", int)
HeapTypeAlias = TypeAliasType("HeapTypeAlias", HeapType)
class TestProtocol(Protocol):
def test_method(self) -> bool:
pass
class TestProtocolImplementer(TestProtocol):
def test_method(self) -> bool:
return True
class Movie(TypedDict):
name: str
year: int
class SpecialTyping:
def custom_int_type(self) -> CustomIntType:
return CustomIntType(1)
def custom_heap_type(self) -> CustomHeapType:
return CustomHeapType(HeapType())
# TODO: remove type:ignore comment once mypy
# supports explicit calls to `TypeAliasType`, see:
# https://github.com/python/mypy/issues/16614
def int_type_alias(self) -> IntTypeAlias: # type:ignore[valid-type]
return 1
def heap_type_alias(self) -> HeapTypeAlias: # type:ignore[valid-type]
return 1
def literal(self) -> Literal[False]:
return False
def literal_string(self) -> LiteralString:
return "test"
def self(self) -> Self:
return self
def any_str(self, x: AnyStr) -> AnyStr:
return x
def annotated(self) -> Annotated[float, "positive number"]:
return 1
def annotated_self(self) -> Annotated[Self, "self with metadata"]:
self._metadata = "test"
return self
def int_type_guard(self, x) -> TypeGuard[int]:
return isinstance(x, int)
def optional_float(self) -> Optional[float]:
return 1.0
def union_str_and_int(self) -> Union[str, int]:
return ""
def protocol(self) -> TestProtocol:
return TestProtocolImplementer()
def typed_dict(self) -> Movie:
return {"name": "The Matrix", "year": 1999}
@pytest.mark.parametrize(
"data,code,expected,equality",
[
[[1, 2, 3], "data.index(2)", 1, True],
[{"a": 1}, "data.keys().isdisjoint({})", True, True],
[StringAnnotation(), "data.heap()", HeapType, False],
[StringAnnotation(), "data.copy()", StringAnnotation, False],
# test cases for `__call__`
[CallCreatesHeapType(), "data()", HeapType, False],
[CallCreatesBuiltin(), "data()", frozenset, False],
# Test cases for `__init__`
[HeapType, "data()", HeapType, False],
[InitReturnsFrozenset, "data()", frozenset, False],
[HeapType(), "data.__class__()", HeapType, False],
# supported special cases for typing
[SpecialTyping(), "data.custom_int_type()", int, False],
[SpecialTyping(), "data.custom_heap_type()", HeapType, False],
[SpecialTyping(), "data.int_type_alias()", int, False],
[SpecialTyping(), "data.heap_type_alias()", HeapType, False],
[SpecialTyping(), "data.self()", SpecialTyping, False],
[SpecialTyping(), "data.literal()", False, True],
[SpecialTyping(), "data.literal_string()", str, False],
[SpecialTyping(), "data.any_str('a')", str, False],
[SpecialTyping(), "data.any_str(b'a')", bytes, False],
[SpecialTyping(), "data.annotated()", float, False],
[SpecialTyping(), "data.annotated_self()", SpecialTyping, False],
[SpecialTyping(), "data.int_type_guard()", int, False],
# test cases for static methods
[HasStaticMethod, "data.static_method()", HeapType, False],
],
)
def test_evaluates_calls(data, code, expected, equality):
context = limited(data=data, HeapType=HeapType, StringAnnotation=StringAnnotation)
value = guarded_eval(code, context)
if equality:
assert value == expected
else:
assert isinstance(value, expected)
@pytest.mark.parametrize(
"data,code,expected_attributes",
[
[SpecialTyping(), "data.optional_float()", ["is_integer"]],
[
SpecialTyping(),
"data.union_str_and_int()",
["capitalize", "as_integer_ratio"],
],
[SpecialTyping(), "data.protocol()", ["test_method"]],
[SpecialTyping(), "data.typed_dict()", ["keys", "values", "items"]],
],
)
def test_mocks_attributes_of_call_results(data, code, expected_attributes):
context = limited(data=data, HeapType=HeapType, StringAnnotation=StringAnnotation)
result = guarded_eval(code, context)
for attr in expected_attributes:
assert hasattr(result, attr)
assert attr in dir(result)
@pytest.mark.parametrize(
"data,code,expected_items",
[
[SpecialTyping(), "data.typed_dict()", {"year": int, "name": str}],
],
)
def test_mocks_items_of_call_results(data, code, expected_items):
context = limited(data=data, HeapType=HeapType, StringAnnotation=StringAnnotation)
result = guarded_eval(code, context)
ipython_keys = result._ipython_key_completions_()
for key, value in expected_items.items():
assert isinstance(result[key], value)
assert key in ipython_keys
@pytest.mark.parametrize(
"data,bad",
[
[[1, 2, 3], "data.append(4)"],
[{"a": 1}, "data.update()"],
],
)
def test_rejects_calls_with_side_effects(data, bad):
context = limited(data=data)
with pytest.raises(GuardRejection):
guarded_eval(bad, context)
@pytest.mark.parametrize(
"code,expected",
[
["(1\n+\n1)", 2],
["list(range(10))[-1:]", [9]],
["list(range(20))[3:-2:3]", [3, 6, 9, 12, 15]],
],
)
@pytest.mark.parametrize("context", LIMITED_OR_HIGHER)
def test_evaluates_complex_cases(code, expected, context):
assert guarded_eval(code, context()) == expected
@pytest.mark.parametrize(
"code,expected",
[
["1", 1],
["1.0", 1.0],
["0xdeedbeef", 0xDEEDBEEF],
["True", True],
["None", None],
["{}", {}],
["[]", []],
],
)
@pytest.mark.parametrize("context", MINIMAL_OR_HIGHER)
def test_evaluates_literals(code, expected, context):
assert guarded_eval(code, context()) == expected
@pytest.mark.parametrize(
"code,expected",
[
["-5", -5],
["+5", +5],
["~5", -6],
],
)
@pytest.mark.parametrize("context", LIMITED_OR_HIGHER)
def test_evaluates_unary_operations(code, expected, context):
assert guarded_eval(code, context()) == expected
@pytest.mark.parametrize(
"code,expected",
[
["1 + 1", 2],
["3 - 1", 2],
["2 * 3", 6],
["5 // 2", 2],
["5 / 2", 2.5],
["5**2", 25],
["2 >> 1", 1],
["2 << 1", 4],
["1 | 2", 3],
["1 & 1", 1],
["1 & 2", 0],
],
)
@pytest.mark.parametrize("context", LIMITED_OR_HIGHER)
def test_evaluates_binary_operations(code, expected, context):
assert guarded_eval(code, context()) == expected
@pytest.mark.parametrize(
"code,expected",
[
["2 > 1", True],
["2 < 1", False],
["2 <= 1", False],
["2 <= 2", True],
["1 >= 2", False],
["2 >= 2", True],
["2 == 2", True],
["1 == 2", False],
["1 != 2", True],
["1 != 1", False],
["1 < 4 < 3", False],
["(1 < 4) < 3", True],
["4 > 3 > 2 > 1", True],
["4 > 3 > 2 > 9", False],
["1 < 2 < 3 < 4", True],
["9 < 2 < 3 < 4", False],
["1 < 2 > 1 > 0 > -1 < 1", True],
["1 in [1] in [[1]]", True],
["1 in [1] in [[2]]", False],
["1 in [1]", True],
["0 in [1]", False],
["1 not in [1]", False],
["0 not in [1]", True],
["True is True", True],
["False is False", True],
["True is False", False],
["True is not True", False],
["False is not True", True],
],
)
@pytest.mark.parametrize("context", LIMITED_OR_HIGHER)
def test_evaluates_comparisons(code, expected, context):
assert guarded_eval(code, context()) == expected
def test_guards_comparisons():
class GoodEq(int):
pass
class BadEq(int):
def __eq__(self, other):
assert False
context = limited(bad=BadEq(1), good=GoodEq(1))
with pytest.raises(GuardRejection):
guarded_eval("bad == 1", context)
with pytest.raises(GuardRejection):
guarded_eval("bad != 1", context)
with pytest.raises(GuardRejection):
guarded_eval("1 == bad", context)
with pytest.raises(GuardRejection):
guarded_eval("1 != bad", context)
assert guarded_eval("good == 1", context) is True
assert guarded_eval("good != 1", context) is False
assert guarded_eval("1 == good", context) is True
assert guarded_eval("1 != good", context) is False
def test_guards_unary_operations():
class GoodOp(int):
pass
class BadOpInv(int):
def __inv__(self, other):
assert False
class BadOpInverse(int):
def __inv__(self, other):
assert False
context = limited(good=GoodOp(1), bad1=BadOpInv(1), bad2=BadOpInverse(1))
with pytest.raises(GuardRejection):
guarded_eval("~bad1", context)
with pytest.raises(GuardRejection):
guarded_eval("~bad2", context)
def test_guards_binary_operations():
class GoodOp(int):
pass
class BadOp(int):
def __add__(self, other):
assert False
context = limited(good=GoodOp(1), bad=BadOp(1))
with pytest.raises(GuardRejection):
guarded_eval("1 + bad", context)
with pytest.raises(GuardRejection):
guarded_eval("bad + 1", context)
assert guarded_eval("good + 1", context) == 2
assert guarded_eval("1 + good", context) == 2
def test_guards_attributes():
class GoodAttr(float):
pass
class BadAttr1(float):
def __getattr__(self, key):
assert False
class BadAttr2(float):
def __getattribute__(self, key):
assert False
context = limited(good=GoodAttr(0.5), bad1=BadAttr1(0.5), bad2=BadAttr2(0.5))
with pytest.raises(GuardRejection):
guarded_eval("bad1.as_integer_ratio", context)
with pytest.raises(GuardRejection):
guarded_eval("bad2.as_integer_ratio", context)
assert guarded_eval("good.as_integer_ratio()", context) == (1, 2)
@pytest.mark.parametrize("context", MINIMAL_OR_HIGHER)
def test_access_builtins(context):
assert guarded_eval("round", context()) == round
def test_access_builtins_fails():
context = limited()
with pytest.raises(NameError):
guarded_eval("this_is_not_builtin", context)
def test_rejects_forbidden():
context = forbidden()
with pytest.raises(GuardRejection):
guarded_eval("1", context)
def test_guards_locals_and_globals():
context = EvaluationContext(
locals={"local_a": "a"}, globals={"global_b": "b"}, evaluation="minimal"
)
with pytest.raises(GuardRejection):
guarded_eval("local_a", context)
with pytest.raises(GuardRejection):
guarded_eval("global_b", context)
def test_access_locals_and_globals():
context = EvaluationContext(
locals={"local_a": "a"}, globals={"global_b": "b"}, evaluation="limited"
)
assert guarded_eval("local_a", context) == "a"
assert guarded_eval("global_b", context) == "b"
@pytest.mark.parametrize(
"code",
["def func(): pass", "class C: pass", "x = 1", "x += 1", "del x", "import ast"],
)
@pytest.mark.parametrize("context", [minimal(), limited(), unsafe()])
def test_rejects_side_effect_syntax(code, context):
with pytest.raises(SyntaxError):
guarded_eval(code, context)
def test_subscript():
context = EvaluationContext(
locals={}, globals={}, evaluation="limited", in_subscript=True
)
empty_slice = slice(None, None, None)
assert guarded_eval("", context) == tuple()
assert guarded_eval(":", context) == empty_slice
assert guarded_eval("1:2:3", context) == slice(1, 2, 3)
assert guarded_eval(':, "a"', context) == (empty_slice, "a")
def test_unbind_method():
class X(list):
def index(self, k):
return "CUSTOM"
x = X()
assert _unbind_method(x.index) is X.index
assert _unbind_method([].index) is list.index
assert _unbind_method(list.index) is None
def test_assumption_instance_attr_do_not_matter():
"""This is semi-specified in Python documentation.
However, since the specification says 'not guaranteed
to work' rather than 'is forbidden to work', future
versions could invalidate this assumptions. This test
is meant to catch such a change if it ever comes true.
"""
class T:
def __getitem__(self, k):
return "a"
def __getattr__(self, k):
return "a"
def f(self):
return "b"
t = T()
t.__getitem__ = f
t.__getattr__ = f
assert t[1] == "a"
assert t[1] == "a"
def test_assumption_named_tuples_share_getitem():
"""Check assumption on named tuples sharing __getitem__"""
from typing import NamedTuple
class A(NamedTuple):
pass
class B(NamedTuple):
pass
assert A.__getitem__ == B.__getitem__
@dec.skip_without("numpy")
def test_module_access():
import numpy
context = limited(numpy=numpy)
assert guarded_eval("numpy.linalg.norm", context) == numpy.linalg.norm
context = minimal(numpy=numpy)
with pytest.raises(GuardRejection):
guarded_eval("np.linalg.norm", context)