Mini Shell
# -*- test-case-name: twisted.python.test.test_util
# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.
"""
Tests for L{twisted.python.util}.
"""
import errno
import os.path
import shutil
import sys
import warnings
from typing import Iterable, Mapping, MutableMapping, Sequence
from unittest import skipIf
try:
import grp as _grp
import pwd as _pwd
except ImportError:
pwd = None
grp = None
else:
pwd = _pwd
grp = _grp
from twisted.internet import reactor
from twisted.internet.defer import Deferred
from twisted.internet.error import ProcessDone
from twisted.internet.interfaces import IReactorProcess
from twisted.internet.protocol import ProcessProtocol
from twisted.python import util
from twisted.python.filepath import FilePath
from twisted.test.test_process import MockOS
from twisted.trial.unittest import FailTest, TestCase
from twisted.trial.util import suppress as SUPPRESS
pyExe = FilePath(sys.executable)._asBytesPath()
class UtilTests(TestCase):
def testUniq(self):
listWithDupes = ["a", 1, "ab", "a", 3, 4, 1, 2, 2, 4, 6]
self.assertEqual(util.uniquify(listWithDupes), ["a", 1, "ab", 3, 4, 2, 6])
def testRaises(self):
self.assertTrue(util.raises(ZeroDivisionError, divmod, 1, 0))
self.assertFalse(util.raises(ZeroDivisionError, divmod, 0, 1))
try:
util.raises(TypeError, divmod, 1, 0)
except ZeroDivisionError:
pass
else:
raise FailTest("util.raises didn't raise when it should have")
def test_uidFromNumericString(self):
"""
When L{uidFromString} is called with a base-ten string representation
of an integer, it returns the integer.
"""
self.assertEqual(util.uidFromString("100"), 100)
@skipIf(pwd is None, "Username/UID conversion requires the pwd module.")
def test_uidFromUsernameString(self):
"""
When L{uidFromString} is called with a base-ten string representation
of an integer, it returns the integer.
"""
pwent = pwd.getpwuid(os.getuid())
self.assertEqual(util.uidFromString(pwent.pw_name), pwent.pw_uid)
def test_gidFromNumericString(self):
"""
When L{gidFromString} is called with a base-ten string representation
of an integer, it returns the integer.
"""
self.assertEqual(util.gidFromString("100"), 100)
@skipIf(grp is None, "Group Name/GID conversion requires the grp module.")
def test_gidFromGroupnameString(self):
"""
When L{gidFromString} is called with a base-ten string representation
of an integer, it returns the integer.
"""
grent = grp.getgrgid(os.getgid())
self.assertEqual(util.gidFromString(grent.gr_name), grent.gr_gid)
class NameToLabelTests(TestCase):
"""
Tests for L{nameToLabel}.
"""
def test_nameToLabel(self):
"""
Test the various kinds of inputs L{nameToLabel} supports.
"""
nameData = [
("f", "F"),
("fo", "Fo"),
("foo", "Foo"),
("fooBar", "Foo Bar"),
("fooBarBaz", "Foo Bar Baz"),
]
for inp, out in nameData:
got = util.nameToLabel(inp)
self.assertEqual(got, out, f"nameToLabel({inp!r}) == {got!r} != {out!r}")
class UntilConcludesTests(TestCase):
"""
Tests for L{untilConcludes}, an C{EINTR} helper.
"""
def test_uninterruptably(self):
"""
L{untilConcludes} calls the function passed to it until the function
does not raise either L{OSError} or L{IOError} with C{errno} of
C{EINTR}. It otherwise completes with the same result as the function
passed to it.
"""
def f(a, b):
self.calls += 1
exc = self.exceptions.pop()
if exc is not None:
raise exc(errno.EINTR, "Interrupted system call!")
return a + b
self.exceptions = [None]
self.calls = 0
self.assertEqual(util.untilConcludes(f, 1, 2), 3)
self.assertEqual(self.calls, 1)
self.exceptions = [None, OSError, IOError]
self.calls = 0
self.assertEqual(util.untilConcludes(f, 2, 3), 5)
self.assertEqual(self.calls, 3)
@skipIf(not getattr(os, "getuid", None), "getuid/setuid not available")
class SwitchUIDTests(TestCase):
"""
Tests for L{util.switchUID}.
"""
def setUp(self):
self.mockos = MockOS()
self.patch(util, "os", self.mockos)
self.patch(util, "initgroups", self.initgroups)
self.initgroupsCalls = []
def initgroups(self, uid, gid):
"""
Save L{util.initgroups} calls in C{self.initgroupsCalls}.
"""
self.initgroupsCalls.append((uid, gid))
def test_uid(self):
"""
L{util.switchUID} calls L{util.initgroups} and then C{os.setuid} with
the given uid.
"""
util.switchUID(12000, None)
self.assertEqual(self.initgroupsCalls, [(12000, None)])
self.assertEqual(self.mockos.actions, [("setuid", 12000)])
def test_euid(self):
"""
L{util.switchUID} calls L{util.initgroups} and then C{os.seteuid} with
the given uid if the C{euid} parameter is set to C{True}.
"""
util.switchUID(12000, None, True)
self.assertEqual(self.initgroupsCalls, [(12000, None)])
self.assertEqual(self.mockos.seteuidCalls, [12000])
def test_currentUID(self):
"""
If the current uid is the same as the uid passed to L{util.switchUID},
then initgroups does not get called, but a warning is issued.
"""
uid = self.mockos.getuid()
util.switchUID(uid, None)
self.assertEqual(self.initgroupsCalls, [])
self.assertEqual(self.mockos.actions, [])
currentWarnings = self.flushWarnings([util.switchUID])
self.assertEqual(len(currentWarnings), 1)
self.assertIn(
"tried to drop privileges and setuid %i" % uid,
currentWarnings[0]["message"],
)
self.assertIn("but uid is already %i" % uid, currentWarnings[0]["message"])
def test_currentEUID(self):
"""
If the current euid is the same as the euid passed to L{util.switchUID},
then initgroups does not get called, but a warning is issued.
"""
euid = self.mockos.geteuid()
util.switchUID(euid, None, True)
self.assertEqual(self.initgroupsCalls, [])
self.assertEqual(self.mockos.seteuidCalls, [])
currentWarnings = self.flushWarnings([util.switchUID])
self.assertEqual(len(currentWarnings), 1)
self.assertIn(
"tried to drop privileges and seteuid %i" % euid,
currentWarnings[0]["message"],
)
self.assertIn("but euid is already %i" % euid, currentWarnings[0]["message"])
class MergeFunctionMetadataTests(TestCase):
"""
Tests for L{mergeFunctionMetadata}.
"""
def test_mergedFunctionBehavesLikeMergeTarget(self):
"""
After merging C{foo}'s data into C{bar}, the returned function behaves
as if it is C{bar}.
"""
foo_object = object()
bar_object = object()
def foo():
return foo_object
def bar(x, y, ab, c=10, *d, **e):
(a, b) = ab
return bar_object
baz = util.mergeFunctionMetadata(foo, bar)
self.assertIs(baz(1, 2, (3, 4), quux=10), bar_object)
def test_moduleIsMerged(self):
"""
Merging C{foo} into C{bar} returns a function with C{foo}'s
C{__module__}.
"""
def foo():
pass
def bar():
pass
bar.__module__ = "somewhere.else"
baz = util.mergeFunctionMetadata(foo, bar)
self.assertEqual(baz.__module__, foo.__module__)
def test_docstringIsMerged(self):
"""
Merging C{foo} into C{bar} returns a function with C{foo}'s docstring.
"""
def foo():
"""
This is foo.
"""
def bar():
"""
This is bar.
"""
baz = util.mergeFunctionMetadata(foo, bar)
self.assertEqual(baz.__doc__, foo.__doc__)
def test_nameIsMerged(self):
"""
Merging C{foo} into C{bar} returns a function with C{foo}'s name.
"""
def foo():
pass
def bar():
pass
baz = util.mergeFunctionMetadata(foo, bar)
self.assertEqual(baz.__name__, foo.__name__)
def test_instanceDictionaryIsMerged(self):
"""
Merging C{foo} into C{bar} returns a function with C{bar}'s
dictionary, updated by C{foo}'s.
"""
def foo():
pass
foo.a = 1
foo.b = 2
def bar():
pass
bar.b = 3
bar.c = 4
baz = util.mergeFunctionMetadata(foo, bar)
self.assertEqual(foo.a, baz.a)
self.assertEqual(foo.b, baz.b)
self.assertEqual(bar.c, baz.c)
class OrderedDictTests(TestCase):
"""
Tests for L{util.OrderedDict}.
"""
def test_deprecated(self):
"""
L{util.OrderedDict} is deprecated.
"""
from twisted.python.util import OrderedDict
OrderedDict # Shh pyflakes
currentWarnings = self.flushWarnings(offendingFunctions=[self.test_deprecated])
self.assertEqual(
currentWarnings[0]["message"],
"twisted.python.util.OrderedDict was deprecated in Twisted "
"15.5.0: Use collections.OrderedDict instead.",
)
self.assertEqual(currentWarnings[0]["category"], DeprecationWarning)
self.assertEqual(len(currentWarnings), 1)
class InsensitiveDictTests(TestCase):
"""
Tests for L{util.InsensitiveDict}.
"""
def test_abc(self):
"""
L{util.InsensitiveDict} implements L{typing.MutableMapping}.
"""
dct = util.InsensitiveDict()
self.assertTrue(isinstance(dct, Iterable))
self.assertTrue(isinstance(dct, Mapping))
self.assertTrue(isinstance(dct, MutableMapping))
self.assertFalse(isinstance(dct, Sequence)) # not Reversible
def test_preserve(self):
"""
L{util.InsensitiveDict} preserves the case of keys if constructed with
C{preserve=True}.
"""
dct = util.InsensitiveDict({"Foo": "bar", 1: 2, "fnz": {1: 2}}, preserve=1)
self.assertEqual(dct["fnz"], {1: 2})
self.assertEqual(dct["foo"], "bar")
self.assertEqual(dct.copy(), dct)
self.assertEqual(dct["foo"], dct.get("Foo"))
self.assertIn(1, dct)
self.assertIn("foo", dct)
result = eval(
repr(dct),
{
"dct": dct,
"InsensitiveDict": util.InsensitiveDict,
},
)
self.assertEqual(result, dct)
keys = ["Foo", "fnz", 1]
for x in keys:
self.assertIn(x, dct.keys())
self.assertIn((x, dct[x]), dct.items())
self.assertEqual(len(keys), len(dct))
del dct[1]
del dct["foo"]
self.assertEqual(dct.keys(), ["fnz"])
def test_noPreserve(self):
"""
L{util.InsensitiveDict} does not preserves the case of keys if
constructed with C{preserve=False}.
"""
dct = util.InsensitiveDict({"Foo": "bar", 1: 2, "fnz": {1: 2}}, preserve=0)
keys = ["foo", "fnz", 1]
for x in keys:
self.assertIn(x, dct.keys())
self.assertIn((x, dct[x]), dct.items())
self.assertEqual(len(keys), len(dct))
del dct[1]
del dct["foo"]
self.assertEqual(dct.keys(), ["fnz"])
def test_unicode(self):
"""
Unicode keys are case insensitive.
"""
d = util.InsensitiveDict(preserve=False)
d["Foo"] = 1
self.assertEqual(d["FOO"], 1)
self.assertEqual(d.keys(), ["foo"])
def test_bytes(self):
"""
Bytes keys are case insensitive.
"""
d = util.InsensitiveDict(preserve=False)
d[b"Foo"] = 1
self.assertEqual(d[b"FOO"], 1)
self.assertEqual(d.keys(), [b"foo"])
class PasswordTestingProcessProtocol(ProcessProtocol):
"""
Write the string C{"secret\\n"} to a subprocess and then collect all of
its output and fire a Deferred with it when the process ends.
"""
def connectionMade(self):
self.output = []
self.transport.write(b"secret\n")
def childDataReceived(self, fd, output):
self.output.append((fd, output))
def processEnded(self, reason):
self.finished.callback((reason, self.output))
@skipIf(
not IReactorProcess.providedBy(reactor),
"Process support required to test getPassword",
)
class GetPasswordTests(TestCase):
def test_stdin(self):
"""
Making sure getPassword accepts a password from standard input by
running a child process which uses getPassword to read in a string
which it then writes it out again. Write a string to the child
process and then read one and make sure it is the right string.
"""
p = PasswordTestingProcessProtocol()
p.finished = Deferred()
reactor.spawnProcess(
p,
pyExe,
[
pyExe,
b"-c",
(
b"import sys\n"
b"from twisted.python.util import getPassword\n"
b"sys.stdout.write(getPassword())\n"
b"sys.stdout.flush()\n"
),
],
env={b"PYTHONPATH": os.pathsep.join(sys.path).encode("utf8")},
)
def processFinished(result):
(reason, output) = result
reason.trap(ProcessDone)
self.assertIn((1, b"secret"), output)
return p.finished.addCallback(processFinished)
class SearchUpwardsTests(TestCase):
def testSearchupwards(self):
os.makedirs("searchupwards/a/b/c")
open("searchupwards/foo.txt", "w").close()
open("searchupwards/a/foo.txt", "w").close()
open("searchupwards/a/b/c/foo.txt", "w").close()
os.mkdir("searchupwards/bar")
os.mkdir("searchupwards/bam")
os.mkdir("searchupwards/a/bar")
os.mkdir("searchupwards/a/b/bam")
actual = util.searchupwards(
"searchupwards/a/b/c", files=["foo.txt"], dirs=["bar", "bam"]
)
expected = os.path.abspath("searchupwards") + os.sep
self.assertEqual(actual, expected)
shutil.rmtree("searchupwards")
actual = util.searchupwards(
"searchupwards/a/b/c", files=["foo.txt"], dirs=["bar", "bam"]
)
expected = None
self.assertEqual(actual, expected)
class IntervalDifferentialTests(TestCase):
def testDefault(self):
d = iter(util.IntervalDifferential([], 10))
for i in range(100):
self.assertEqual(next(d), (10, None))
def testSingle(self):
d = iter(util.IntervalDifferential([5], 10))
for i in range(100):
self.assertEqual(next(d), (5, 0))
def testPair(self):
d = iter(util.IntervalDifferential([5, 7], 10))
for i in range(100):
self.assertEqual(next(d), (5, 0))
self.assertEqual(next(d), (2, 1))
self.assertEqual(next(d), (3, 0))
self.assertEqual(next(d), (4, 1))
self.assertEqual(next(d), (1, 0))
self.assertEqual(next(d), (5, 0))
self.assertEqual(next(d), (1, 1))
self.assertEqual(next(d), (4, 0))
self.assertEqual(next(d), (3, 1))
self.assertEqual(next(d), (2, 0))
self.assertEqual(next(d), (5, 0))
self.assertEqual(next(d), (0, 1))
def testTriple(self):
d = iter(util.IntervalDifferential([2, 4, 5], 10))
for i in range(100):
self.assertEqual(next(d), (2, 0))
self.assertEqual(next(d), (2, 0))
self.assertEqual(next(d), (0, 1))
self.assertEqual(next(d), (1, 2))
self.assertEqual(next(d), (1, 0))
self.assertEqual(next(d), (2, 0))
self.assertEqual(next(d), (0, 1))
self.assertEqual(next(d), (2, 0))
self.assertEqual(next(d), (0, 2))
self.assertEqual(next(d), (2, 0))
self.assertEqual(next(d), (0, 1))
self.assertEqual(next(d), (2, 0))
self.assertEqual(next(d), (1, 2))
self.assertEqual(next(d), (1, 0))
self.assertEqual(next(d), (0, 1))
self.assertEqual(next(d), (2, 0))
self.assertEqual(next(d), (2, 0))
self.assertEqual(next(d), (0, 1))
self.assertEqual(next(d), (0, 2))
def testInsert(self):
d = iter(util.IntervalDifferential([], 10))
self.assertEqual(next(d), (10, None))
d.addInterval(3)
self.assertEqual(next(d), (3, 0))
self.assertEqual(next(d), (3, 0))
d.addInterval(6)
self.assertEqual(next(d), (3, 0))
self.assertEqual(next(d), (3, 0))
self.assertEqual(next(d), (0, 1))
self.assertEqual(next(d), (3, 0))
self.assertEqual(next(d), (3, 0))
self.assertEqual(next(d), (0, 1))
def testRemove(self):
d = iter(util.IntervalDifferential([3, 5], 10))
self.assertEqual(next(d), (3, 0))
self.assertEqual(next(d), (2, 1))
self.assertEqual(next(d), (1, 0))
d.removeInterval(3)
self.assertEqual(next(d), (4, 0))
self.assertEqual(next(d), (5, 0))
d.removeInterval(5)
self.assertEqual(next(d), (10, None))
self.assertRaises(ValueError, d.removeInterval, 10)
class Record(util.FancyEqMixin):
"""
Trivial user of L{FancyEqMixin} used by tests.
"""
compareAttributes = ("a", "b")
def __init__(self, a, b):
self.a = a
self.b = b
class DifferentRecord(util.FancyEqMixin):
"""
Trivial user of L{FancyEqMixin} which is not related to L{Record}.
"""
compareAttributes = ("a", "b")
def __init__(self, a, b):
self.a = a
self.b = b
class DerivedRecord(Record):
"""
A class with an inheritance relationship to L{Record}.
"""
class EqualToEverything:
"""
A class the instances of which consider themselves equal to everything.
"""
def __eq__(self, other: object) -> bool:
return True
class EqualToNothing:
"""
A class the instances of which consider themselves equal to nothing.
"""
def __eq__(self, other: object) -> bool:
return False
class EqualityTests(TestCase):
"""
Tests for L{FancyEqMixin}.
"""
def test_identity(self):
"""
Instances of a class which mixes in L{FancyEqMixin} but which
defines no comparison attributes compare by identity.
"""
class Empty(util.FancyEqMixin):
pass
self.assertFalse(Empty() == Empty())
self.assertTrue(Empty() != Empty())
empty = Empty()
self.assertTrue(empty == empty)
self.assertFalse(empty != empty)
def test_equality(self):
"""
Instances of a class which mixes in L{FancyEqMixin} should compare
equal if all of their attributes compare equal. They should not
compare equal if any of their attributes do not compare equal.
"""
self.assertTrue(Record(1, 2) == Record(1, 2))
self.assertFalse(Record(1, 2) == Record(1, 3))
self.assertFalse(Record(1, 2) == Record(2, 2))
self.assertFalse(Record(1, 2) == Record(3, 4))
def test_unequality(self):
"""
Inequality between instances of a particular L{record} should be
defined as the negation of equality.
"""
self.assertFalse(Record(1, 2) != Record(1, 2))
self.assertTrue(Record(1, 2) != Record(1, 3))
self.assertTrue(Record(1, 2) != Record(2, 2))
self.assertTrue(Record(1, 2) != Record(3, 4))
def test_differentClassesEquality(self):
"""
Instances of different classes which mix in L{FancyEqMixin} should not
compare equal.
"""
self.assertFalse(Record(1, 2) == DifferentRecord(1, 2))
def test_differentClassesInequality(self):
"""
Instances of different classes which mix in L{FancyEqMixin} should
compare unequal.
"""
self.assertTrue(Record(1, 2) != DifferentRecord(1, 2))
def test_inheritedClassesEquality(self):
"""
An instance of a class which derives from a class which mixes in
L{FancyEqMixin} should compare equal to an instance of the base class
if and only if all of their attributes compare equal.
"""
self.assertTrue(Record(1, 2) == DerivedRecord(1, 2))
self.assertFalse(Record(1, 2) == DerivedRecord(1, 3))
self.assertFalse(Record(1, 2) == DerivedRecord(2, 2))
self.assertFalse(Record(1, 2) == DerivedRecord(3, 4))
def test_inheritedClassesInequality(self):
"""
An instance of a class which derives from a class which mixes in
L{FancyEqMixin} should compare unequal to an instance of the base
class if any of their attributes compare unequal.
"""
self.assertFalse(Record(1, 2) != DerivedRecord(1, 2))
self.assertTrue(Record(1, 2) != DerivedRecord(1, 3))
self.assertTrue(Record(1, 2) != DerivedRecord(2, 2))
self.assertTrue(Record(1, 2) != DerivedRecord(3, 4))
def test_rightHandArgumentImplementsEquality(self):
"""
The right-hand argument to the equality operator is given a chance
to determine the result of the operation if it is of a type
unrelated to the L{FancyEqMixin}-based instance on the left-hand
side.
"""
self.assertTrue(Record(1, 2) == EqualToEverything())
self.assertFalse(Record(1, 2) == EqualToNothing())
def test_rightHandArgumentImplementsUnequality(self):
"""
The right-hand argument to the non-equality operator is given a
chance to determine the result of the operation if it is of a type
unrelated to the L{FancyEqMixin}-based instance on the left-hand
side.
"""
self.assertFalse(Record(1, 2) != EqualToEverything())
self.assertTrue(Record(1, 2) != EqualToNothing())
@skipIf(not getattr(os, "geteuid", None), "geteuid/seteuid not available")
class RunAsEffectiveUserTests(TestCase):
"""
Test for the L{util.runAsEffectiveUser} function.
"""
def setUp(self):
self.mockos = MockOS()
self.patch(os, "geteuid", self.mockos.geteuid)
self.patch(os, "getegid", self.mockos.getegid)
self.patch(os, "seteuid", self.mockos.seteuid)
self.patch(os, "setegid", self.mockos.setegid)
def _securedFunction(self, startUID, startGID, wantUID, wantGID):
"""
Check if wanted UID/GID matched start or saved ones.
"""
self.assertTrue(wantUID == startUID or wantUID == self.mockos.seteuidCalls[-1])
self.assertTrue(wantGID == startGID or wantGID == self.mockos.setegidCalls[-1])
def test_forwardResult(self):
"""
L{util.runAsEffectiveUser} forwards the result obtained by calling the
given function
"""
result = util.runAsEffectiveUser(0, 0, lambda: 1)
self.assertEqual(result, 1)
def test_takeParameters(self):
"""
L{util.runAsEffectiveUser} pass the given parameters to the given
function.
"""
result = util.runAsEffectiveUser(0, 0, lambda x: 2 * x, 3)
self.assertEqual(result, 6)
def test_takesKeyworkArguments(self):
"""
L{util.runAsEffectiveUser} pass the keyword parameters to the given
function.
"""
result = util.runAsEffectiveUser(0, 0, lambda x, y=1, z=1: x * y * z, 2, z=3)
self.assertEqual(result, 6)
def _testUIDGIDSwitch(
self,
startUID,
startGID,
wantUID,
wantGID,
expectedUIDSwitches,
expectedGIDSwitches,
):
"""
Helper method checking the calls to C{os.seteuid} and C{os.setegid}
made by L{util.runAsEffectiveUser}, when switching from startUID to
wantUID and from startGID to wantGID.
"""
self.mockos.euid = startUID
self.mockos.egid = startGID
util.runAsEffectiveUser(
wantUID,
wantGID,
self._securedFunction,
startUID,
startGID,
wantUID,
wantGID,
)
self.assertEqual(self.mockos.seteuidCalls, expectedUIDSwitches)
self.assertEqual(self.mockos.setegidCalls, expectedGIDSwitches)
self.mockos.seteuidCalls = []
self.mockos.setegidCalls = []
def test_root(self):
"""
Check UID/GID switches when current effective UID is root.
"""
self._testUIDGIDSwitch(0, 0, 0, 0, [], [])
self._testUIDGIDSwitch(0, 0, 1, 0, [1, 0], [])
self._testUIDGIDSwitch(0, 0, 0, 1, [], [1, 0])
self._testUIDGIDSwitch(0, 0, 1, 1, [1, 0], [1, 0])
def test_UID(self):
"""
Check UID/GID switches when current effective UID is non-root.
"""
self._testUIDGIDSwitch(1, 0, 0, 0, [0, 1], [])
self._testUIDGIDSwitch(1, 0, 1, 0, [], [])
self._testUIDGIDSwitch(1, 0, 1, 1, [0, 1, 0, 1], [1, 0])
self._testUIDGIDSwitch(1, 0, 2, 1, [0, 2, 0, 1], [1, 0])
def test_GID(self):
"""
Check UID/GID switches when current effective GID is non-root.
"""
self._testUIDGIDSwitch(0, 1, 0, 0, [], [0, 1])
self._testUIDGIDSwitch(0, 1, 0, 1, [], [])
self._testUIDGIDSwitch(0, 1, 1, 1, [1, 0], [])
self._testUIDGIDSwitch(0, 1, 1, 2, [1, 0], [2, 1])
def test_UIDGID(self):
"""
Check UID/GID switches when current effective UID/GID is non-root.
"""
self._testUIDGIDSwitch(1, 1, 0, 0, [0, 1], [0, 1])
self._testUIDGIDSwitch(1, 1, 0, 1, [0, 1], [])
self._testUIDGIDSwitch(1, 1, 1, 0, [0, 1, 0, 1], [0, 1])
self._testUIDGIDSwitch(1, 1, 1, 1, [], [])
self._testUIDGIDSwitch(1, 1, 2, 1, [0, 2, 0, 1], [])
self._testUIDGIDSwitch(1, 1, 1, 2, [0, 1, 0, 1], [2, 1])
self._testUIDGIDSwitch(1, 1, 2, 2, [0, 2, 0, 1], [2, 1])
@skipIf(not util._initgroups, "stdlib support for initgroups is not available")
class InitGroupsTests(TestCase):
"""
Tests for L{util.initgroups}.
"""
def test_initgroupsInStdlib(self):
"""
Calling L{util.initgroups} will call the underlying stdlib
implmentation.
"""
calls = []
def mockInitgroups(x, y):
calls.append((x, y))
self.patch(util, "_initgroups", mockInitgroups)
setgroupsCalls = []
self.patch(util, "setgroups", setgroupsCalls.append)
util.initgroups(os.getuid(), 4)
self.assertEqual(calls, [(pwd.getpwuid(os.getuid()).pw_name, 4)])
self.assertFalse(setgroupsCalls)
def test_initgroupsNoneGid(self):
"""
Calling L{util.initgroups} with None for gid gives an error.
"""
self.assertRaises(TypeError, util.initgroups, os.getuid(), None)
class DeprecationTests(TestCase):
"""
Tests for deprecations in C{twisted.python.util}.
"""
def test_getPluginDirs(self):
"""
L{util.getPluginDirs} is deprecated.
"""
util.getPluginDirs()
currentWarnings = self.flushWarnings(
offendingFunctions=[self.test_getPluginDirs]
)
self.assertEqual(
currentWarnings[0]["message"],
"twisted.python.util.getPluginDirs is deprecated since Twisted " "12.2.",
)
self.assertEqual(currentWarnings[0]["category"], DeprecationWarning)
self.assertEqual(len(currentWarnings), 1)
def test_addPluginDir(self):
"""
L{util.addPluginDir} is deprecated.
"""
util.addPluginDir()
currentWarnings = self.flushWarnings(
offendingFunctions=[self.test_addPluginDir]
)
self.assertEqual(
currentWarnings[0]["message"],
"twisted.python.util.addPluginDir is deprecated since Twisted " "12.2.",
)
self.assertEqual(currentWarnings[0]["category"], DeprecationWarning)
self.assertEqual(len(currentWarnings), 1)
test_addPluginDir.suppress = [ # type: ignore[attr-defined]
SUPPRESS(
category=DeprecationWarning,
message="twisted.python.util.getPluginDirs is deprecated",
)
]
class SuppressedWarningsTests(TestCase):
"""
Tests for L{util.runWithWarningsSuppressed}.
"""
runWithWarningsSuppressed = staticmethod(util.runWithWarningsSuppressed)
def test_runWithWarningsSuppressedFiltered(self):
"""
Warnings from the function called by C{runWithWarningsSuppressed} are
suppressed if they match the passed in filter.
"""
filters = [(("ignore", ".*foo.*"), {}), (("ignore", ".*bar.*"), {})]
self.runWithWarningsSuppressed(filters, warnings.warn, "ignore foo")
self.runWithWarningsSuppressed(filters, warnings.warn, "ignore bar")
self.assertEqual([], self.flushWarnings())
def test_runWithWarningsSuppressedUnfiltered(self):
"""
Warnings from the function called by C{runWithWarningsSuppressed} are
not suppressed if they do not match the passed in filter.
"""
filters = [(("ignore", ".*foo.*"), {}), (("ignore", ".*bar.*"), {})]
self.runWithWarningsSuppressed(filters, warnings.warn, "don't ignore")
self.assertEqual(["don't ignore"], [w["message"] for w in self.flushWarnings()])
def test_passThrough(self):
"""
C{runWithWarningsSuppressed} returns the result of the function it
called.
"""
self.assertEqual(self.runWithWarningsSuppressed([], lambda: 4), 4)
def test_noSideEffects(self):
"""
Once C{runWithWarningsSuppressed} has returned, it no longer
suppresses warnings.
"""
filters = [(("ignore", ".*foo.*"), {}), (("ignore", ".*bar.*"), {})]
self.runWithWarningsSuppressed(filters, lambda: None)
warnings.warn("ignore foo")
self.assertEqual(["ignore foo"], [w["message"] for w in self.flushWarnings()])
class FancyStrMixinTests(TestCase):
"""
Tests for L{util.FancyStrMixin}.
"""
def test_sequenceOfStrings(self):
"""
If C{showAttributes} is set to a sequence of strings, C{__str__}
renders using those by looking them up as attributes on the object.
"""
class Foo(util.FancyStrMixin):
showAttributes = ("first", "second")
first = 1
second = "hello"
self.assertEqual(str(Foo()), "<Foo first=1 second='hello'>")
def test_formatter(self):
"""
If C{showAttributes} has an item that is a 2-tuple, C{__str__} renders
the first item in the tuple as a key and the result of calling the
second item with the value of the attribute named by the first item as
the value.
"""
class Foo(util.FancyStrMixin):
showAttributes = ("first", ("second", lambda value: repr(value[::-1])))
first = "hello"
second = "world"
self.assertEqual("<Foo first='hello' second='dlrow'>", str(Foo()))
def test_override(self):
"""
If C{showAttributes} has an item that is a 3-tuple, C{__str__} renders
the second item in the tuple as a key, and the contents of the
attribute named in the first item are rendered as the value. The value
is formatted using the third item in the tuple.
"""
class Foo(util.FancyStrMixin):
showAttributes = ("first", ("second", "2nd", "%.1f"))
first = 1
second = 2.111
self.assertEqual(str(Foo()), "<Foo first=1 2nd=2.1>")
def test_fancybasename(self):
"""
If C{fancybasename} is present, C{__str__} uses it instead of the class name.
"""
class Foo(util.FancyStrMixin):
fancybasename = "Bar"
self.assertEqual(str(Foo()), "<Bar>")
def test_repr(self):
"""
C{__repr__} outputs the same content as C{__str__}.
"""
class Foo(util.FancyStrMixin):
showAttributes = ("first", "second")
first = 1
second = "hello"
obj = Foo()
self.assertEqual(str(obj), repr(obj))
class PadToTests(TestCase):
"""
Tests for L{util.padTo}.
"""
def test_default(self):
"""
L{None} values can be added to a list to cause it to have a certain
length.
"""
padded = util.padTo(3, [])
self.assertEqual([None] * 3, padded)
def test_specificDefaultValue(self):
"""
A specific value can be added to a list to cause it to have a certain
length.
"""
padded = util.padTo(4, [], "x")
self.assertEqual(["x"] * 4, padded)
def test_padNonEmptyList(self):
"""
A list which already has some items has the padding value added after
those items.
"""
padded = util.padTo(3, [1, 2], "z")
self.assertEqual([1, 2, "z"], padded)
def test_padToSmallerSize(self):
"""
L{util.padTo} can't pad a list if the size requested is smaller than
the size of the list to pad.
"""
self.assertRaises(ValueError, util.padTo, 1, [1, 2])
def test_alreadyPadded(self):
"""
If the list is already the length indicated by the padding argument
then a list with the same value is returned.
"""
items = [1, 2]
padded = util.padTo(len(items), items)
self.assertEqual(items, padded)
def test_alreadyPaddedCopies(self):
"""
If the list is already the length indicated by the padding argument
then the return value is a copy of the input.
"""
items = [1, 2]
padded = util.padTo(len(items), items)
self.assertIsNot(padded, items)
def test_makeCopy(self):
"""
L{util.padTo} doesn't modify the input list but makes a copy.
"""
items = []
util.padTo(4, items)
self.assertEqual([], items)
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