Current File : //lib/python3/dist-packages/twisted/test/test_log.py
# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.
"""
Tests for L{twisted.python.log}.
"""
from __future__ import annotations
import calendar
import logging
import os
import sys
import time
import warnings
from io import IOBase, StringIO
from typing import Callable, List
from zope.interface import implementer
from typing import Protocol
from twisted.logger import (
ILogObserver,
LogBeginner,
LoggingFile,
LogLevel as NewLogLevel,
LogPublisher as NewLogPublisher,
)
from twisted.logger.test.test_stdlib import handlerAndBytesIO
from twisted.python import failure, log
from twisted.python.log import LogPublisher
from twisted.trial import unittest
class FakeWarning(Warning):
"""
A unique L{Warning} subclass used by tests for interactions of
L{twisted.python.log} with the L{warnings} module.
"""
class TextFromEventDictTests(unittest.SynchronousTestCase):
"""
Tests for L{textFromEventDict}.
"""
def test_message(self) -> None:
"""
The C{"message"} value, when specified, is concatenated to generate the
message.
"""
eventDict = dict(message=("a", "b", "c"))
text = log.textFromEventDict(eventDict)
self.assertEqual(text, "a b c")
def test_format(self) -> None:
"""
The C{"format"} value, when specified, is used to format the message.
"""
eventDict = dict(message=(), isError=0, format="Hello, %(foo)s!", foo="dude")
text = log.textFromEventDict(eventDict)
self.assertEqual(text, "Hello, dude!")
def test_noMessageNoFormat(self) -> None:
"""
If C{"format"} is unspecified and C{"message"} is empty, return
L{None}.
"""
eventDict = dict(message=(), isError=0)
text = log.textFromEventDict(eventDict)
self.assertIsNone(text)
def test_whySpecified(self) -> None:
"""
The C{"why"} value, when specified, is first part of message.
"""
try:
raise RuntimeError()
except BaseException:
eventDict = dict(
message=(), isError=1, failure=failure.Failure(), why="foo"
)
text = log.textFromEventDict(eventDict)
assert text is not None
self.assertTrue(text.startswith("foo\n"))
def test_whyDefault(self) -> None:
"""
The C{"why"} value, when unspecified, defaults to C{"Unhandled Error"}.
"""
try:
raise RuntimeError()
except BaseException:
eventDict = dict(message=(), isError=1, failure=failure.Failure())
text = log.textFromEventDict(eventDict)
assert text is not None
self.assertTrue(text.startswith("Unhandled Error\n"))
def test_noTracebackForYou(self) -> None:
"""
If unable to obtain a traceback due to an exception, catch it and note
the error.
"""
# Invalid failure object doesn't implement .getTraceback()
eventDict = dict(message=(), isError=1, failure=object())
text = log.textFromEventDict(eventDict)
self.assertIn("\n(unable to obtain traceback)", text)
class LogTests(unittest.SynchronousTestCase):
def setUp(self) -> None:
self.catcher: list[log.EventDict] = []
self.observer = self.catcher.append
log.addObserver(self.observer)
self.addCleanup(log.removeObserver, self.observer)
def testObservation(self) -> None:
catcher = self.catcher
log.msg("test", testShouldCatch=True)
i = catcher.pop()
self.assertEqual(i["message"][0], "test")
self.assertTrue(i["testShouldCatch"])
self.assertIn("time", i)
self.assertEqual(len(catcher), 0)
def testContext(self) -> None:
catcher = self.catcher
log.callWithContext(
{"subsystem": "not the default", "subsubsystem": "a", "other": "c"},
log.callWithContext,
{"subsubsystem": "b"},
log.msg,
"foo",
other="d",
)
i = catcher.pop()
self.assertEqual(i["subsubsystem"], "b")
self.assertEqual(i["subsystem"], "not the default")
self.assertEqual(i["other"], "d")
self.assertEqual(i["message"][0], "foo")
def testErrors(self) -> None:
for e, ig in [
("hello world", "hello world"),
(KeyError(), KeyError),
(failure.Failure(RuntimeError()), RuntimeError),
]:
log.err(e)
i = self.catcher.pop()
self.assertEqual(i["isError"], 1)
self.flushLoggedErrors(ig)
def testErrorsWithWhy(self) -> None:
for e, ig in [
("hello world", "hello world"),
(KeyError(), KeyError),
(failure.Failure(RuntimeError()), RuntimeError),
]:
log.err(e, "foobar")
i = self.catcher.pop()
self.assertEqual(i["isError"], 1)
self.assertEqual(i["why"], "foobar")
self.flushLoggedErrors(ig)
def test_erroneousErrors(self) -> None:
"""
Exceptions raised by log observers are logged but the observer which
raised the exception remains registered with the publisher. These
exceptions do not prevent the event from being sent to other observers
registered with the publisher.
"""
L1: list[log.EventDict] = []
L2: list[log.EventDict] = []
def broken(event: log.EventDict) -> None:
1 // 0
for observer in [L1.append, broken, L2.append]:
log.addObserver(observer)
self.addCleanup(log.removeObserver, observer)
for i in range(3):
# Reset the lists for simpler comparison.
L1[:] = []
L2[:] = []
# Send out the event which will break one of the observers.
log.msg("Howdy, y'all.", log_trace=[])
# The broken observer should have caused this to be logged.
excs = self.flushLoggedErrors(ZeroDivisionError)
del self.catcher[:]
self.assertEqual(len(excs), 1)
# Both other observers should have seen the message.
self.assertEqual(len(L1), 2)
self.assertEqual(len(L2), 2)
# The first event is delivered to all observers; then, errors
# are delivered.
self.assertEqual(L1[0]["message"], ("Howdy, y'all.",))
self.assertEqual(L2[0]["message"], ("Howdy, y'all.",))
def test_showwarning(self) -> None:
"""
L{twisted.python.log.showwarning} emits the warning as a message
to the Twisted logging system.
"""
publisher = log.LogPublisher()
publisher.addObserver(self.observer)
publisher.showwarning(
FakeWarning("unique warning message"),
FakeWarning,
"warning-filename.py",
27,
)
event = self.catcher.pop()
self.assertEqual(
event["format"] % event,
"warning-filename.py:27: twisted.test.test_log.FakeWarning: "
"unique warning message",
)
self.assertEqual(self.catcher, [])
# Python 2.6 requires that any function used to override the
# warnings.showwarning API accept a "line" parameter or a
# deprecation warning is emitted.
publisher.showwarning(
FakeWarning("unique warning message"),
FakeWarning,
"warning-filename.py",
27,
line=object(),
)
event = self.catcher.pop()
self.assertEqual(
event["format"] % event,
"warning-filename.py:27: twisted.test.test_log.FakeWarning: "
"unique warning message",
)
self.assertEqual(self.catcher, [])
def test_warningToFile(self) -> None:
"""
L{twisted.python.log.showwarning} passes warnings with an explicit file
target on to the underlying Python warning system.
"""
message = "another unique message"
category = FakeWarning
filename = "warning-filename.py"
lineno = 31
output = StringIO()
log.showwarning(message, category, filename, lineno, file=output)
self.assertEqual(
output.getvalue(),
warnings.formatwarning(message, category, filename, lineno),
)
# In Python 2.6 and higher, warnings.showwarning accepts
# a "line" argument which gives the source line the warning
# message is to include.
line = "hello world"
output = StringIO()
log.showwarning(message, category, filename, lineno, file=output, line=line)
self.assertEqual(
output.getvalue(),
warnings.formatwarning(message, category, filename, lineno, line),
)
def test_publisherReportsBrokenObserversPrivately(self) -> None:
"""
Log publisher does not use the global L{log.err} when reporting broken
observers.
"""
errors = []
def logError(eventDict: log.EventDict) -> None:
if eventDict.get("isError"):
errors.append(eventDict["failure"].value)
def fail(eventDict: log.EventDict) -> None:
raise RuntimeError("test_publisherLocalyReportsBrokenObservers")
publisher = log.LogPublisher()
publisher.addObserver(logError)
publisher.addObserver(fail)
publisher.msg("Hello!")
self.assertEqual(set(publisher.observers), {logError, fail})
self.assertEqual(len(errors), 1)
self.assertIsInstance(errors[0], RuntimeError)
class FakeFile(List[bytes]):
def write(self, bytes: bytes) -> None:
self.append(bytes)
def flush(self) -> None:
pass
IOBase.register(FakeFile)
class EvilStr:
def __str__(self) -> str:
return str(1 // 0)
class EvilRepr:
def __str__(self) -> str:
return "Happy Evil Repr"
def __repr__(self) -> str:
return str(1 // 0)
class EvilReprStr(EvilStr, EvilRepr):
pass
class _LogPublisherTestCaseMixinBase(Protocol):
out: FakeFile
def assertIsInstance(
self, instance: object, classOrTuple: type, message: str
) -> None:
...
class LogPublisherTestCaseMixin:
def setUp(self) -> None:
"""
Add a log observer which records log events in C{self.out}. Also,
make sure the default string encoding is ASCII so that
L{testSingleUnicode} can test the behavior of logging unencodable
unicode messages.
"""
self.out = FakeFile()
self.lp = log.LogPublisher()
self.flo = log.FileLogObserver(self.out)
self.lp.addObserver(self.flo.emit)
def tearDown(self: _LogPublisherTestCaseMixinBase) -> None:
"""
Verify that everything written to the fake file C{self.out} was a
C{str}. Also, restore the default string encoding to its previous
setting, if it was modified by L{setUp}.
"""
for chunk in self.out:
self.assertIsInstance(chunk, str, f"{chunk!r} was not a string")
class LogPublisherTests(LogPublisherTestCaseMixin, unittest.SynchronousTestCase):
def testSingleString(self) -> None:
self.lp.msg("Hello, world.")
self.assertEqual(len(self.out), 1)
def testMultipleString(self) -> None:
# Test some stupid behavior that will be deprecated real soon.
# If you are reading this and trying to learn how the logging
# system works, *do not use this feature*.
self.lp.msg("Hello, ", "world.")
self.assertEqual(len(self.out), 1)
def test_singleUnicode(self) -> None:
"""
L{log.LogPublisher.msg} does not accept non-ASCII Unicode on Python 2,
logging an error instead.
On Python 3, where Unicode is default message type, the message is
logged normally.
"""
message = "Hello, \N{VULGAR FRACTION ONE HALF} world."
self.lp.msg(message)
self.assertEqual(len(self.out), 1)
self.assertIn(message, self.out[0])
class FileObserverTests(LogPublisherTestCaseMixin, unittest.SynchronousTestCase):
"""
Tests for L{log.FileObserver}.
"""
ERROR_INVALID_FORMAT = "Invalid format string"
ERROR_UNFORMATTABLE_OBJECT = "UNFORMATTABLE OBJECT"
ERROR_FORMAT = "Invalid format string or unformattable object in log message"
ERROR_PATHOLOGICAL = "PATHOLOGICAL ERROR"
ERROR_NO_FORMAT = "Unable to format event"
ERROR_UNFORMATTABLE_SYSTEM = "[UNFORMATTABLE]"
ERROR_MESSAGE_LOST = "MESSAGE LOST: unformattable object logged"
def _getTimezoneOffsetTest(
self, tzname: str, daylightOffset: int, standardOffset: int
) -> None:
"""
Verify that L{getTimezoneOffset} produces the expected offset for a
certain timezone both when daylight saving time is in effect and when
it is not.
@param tzname: The name of a timezone to exercise.
@type tzname: L{bytes}
@param daylightOffset: The number of seconds west of UTC the timezone
should be when daylight saving time is in effect.
@type daylightOffset: L{int}
@param standardOffset: The number of seconds west of UTC the timezone
should be when daylight saving time is not in effect.
@type standardOffset: L{int}
"""
if getattr(time, "tzset", None) is None:
raise unittest.SkipTest(
"Platform cannot change timezone, cannot verify correct "
"offsets in well-known timezones."
)
originalTimezone = os.environ.get("TZ", None)
try:
os.environ["TZ"] = tzname
time.tzset()
# The behavior of mktime depends on the current timezone setting.
# So only do this after changing the timezone.
# Compute a POSIX timestamp for a certain date and time that is
# known to occur at a time when daylight saving time is not in
# effect.
localStandardTuple = (2007, 1, 31, 0, 0, 0, 2, 31, 0)
standard = time.mktime(localStandardTuple)
# Compute a POSIX timestamp for a certain date and time that is
# known to occur at a time when daylight saving time is in effect.
localDaylightTuple = (2006, 6, 30, 0, 0, 0, 4, 181, 1)
try:
daylight = time.mktime(localDaylightTuple)
except OverflowError:
# mktime() may raise OverflowError if its tuple is
# inconsistent, although many implementations don't
# care. The implementation in glibc>=2.28 will raise
# if DST is indicated for a zone that doesn't have DST.
# We accept either behavior: ignoring the DST flag for those
# zones, or raising EOVERFLOW.
if daylightOffset == standardOffset: # DST-less zone?
daylight = standard
else:
raise
self.assertEqual(
(
self.flo.getTimezoneOffset(daylight),
self.flo.getTimezoneOffset(standard),
),
(daylightOffset, standardOffset),
)
finally:
if originalTimezone is None:
del os.environ["TZ"]
else:
os.environ["TZ"] = originalTimezone
time.tzset()
def test_getTimezoneOffsetWestOfUTC(self) -> None:
"""
Attempt to verify that L{FileLogObserver.getTimezoneOffset} returns
correct values for the current C{TZ} environment setting for at least
some cases. This test method exercises a timezone that is west of UTC
(and should produce positive results).
"""
self._getTimezoneOffsetTest("America/New_York", 14400, 18000)
def test_getTimezoneOffsetEastOfUTC(self) -> None:
"""
Attempt to verify that L{FileLogObserver.getTimezoneOffset} returns
correct values for the current C{TZ} environment setting for at least
some cases. This test method exercises a timezone that is east of UTC
(and should produce negative results).
"""
self._getTimezoneOffsetTest("Europe/Berlin", -7200, -3600)
def test_getTimezoneOffsetWithoutDaylightSavingTime(self) -> None:
"""
Attempt to verify that L{FileLogObserver.getTimezoneOffset} returns
correct values for the current C{TZ} environment setting for at least
some cases. This test method exercises a timezone that does not use
daylight saving time at all (so both summer and winter time test values
should have the same offset).
"""
# Test a timezone that doesn't have DST. Some mktime()
# implementations available for testing seem happy to produce
# results for this even though it's not entirely valid. Others
# such as glibc>=2.28 return EOVERFLOW.
self._getTimezoneOffsetTest("Africa/Johannesburg", -7200, -7200)
def test_timeFormatting(self) -> None:
"""
Test the method of L{FileLogObserver} which turns a timestamp into a
human-readable string.
"""
when = calendar.timegm((2001, 2, 3, 4, 5, 6, 7, 8, 0))
# Pretend to be in US/Eastern for a moment
self.flo.getTimezoneOffset = lambda when: 18000 # type: ignore[method-assign]
self.assertEqual(self.flo.formatTime(when), "2001-02-02 23:05:06-0500")
# Okay now we're in Eastern Europe somewhere
self.flo.getTimezoneOffset = lambda when: -3600 # type: ignore[method-assign]
self.assertEqual(self.flo.formatTime(when), "2001-02-03 05:05:06+0100")
# And off in the Pacific or someplace like that
self.flo.getTimezoneOffset = lambda when: -39600 # type: ignore[method-assign]
self.assertEqual(self.flo.formatTime(when), "2001-02-03 15:05:06+1100")
# One of those weird places with a half-hour offset timezone
self.flo.getTimezoneOffset = lambda when: 5400 # type: ignore[method-assign]
self.assertEqual(self.flo.formatTime(when), "2001-02-03 02:35:06-0130")
# Half-hour offset in the other direction
self.flo.getTimezoneOffset = lambda when: -5400 # type: ignore[method-assign]
self.assertEqual(self.flo.formatTime(when), "2001-02-03 05:35:06+0130")
# Test an offset which is between 0 and 60 minutes to make sure the
# sign comes out properly in that case.
self.flo.getTimezoneOffset = lambda when: 1800 # type: ignore[method-assign]
self.assertEqual(self.flo.formatTime(when), "2001-02-03 03:35:06-0030")
# Test an offset between 0 and 60 minutes in the other direction.
self.flo.getTimezoneOffset = lambda when: -1800 # type: ignore[method-assign]
self.assertEqual(self.flo.formatTime(when), "2001-02-03 04:35:06+0030")
# If a strftime-format string is present on the logger, it should
# use that instead. Note we don't assert anything about day, hour
# or minute because we cannot easily control what time.strftime()
# thinks the local timezone is.
self.flo.timeFormat = "%Y %m"
self.assertEqual(self.flo.formatTime(when), "2001 02")
def test_microsecondTimestampFormatting(self) -> None:
"""
L{FileLogObserver.formatTime} supports a value of C{timeFormat} which
includes C{"%f"}, a L{datetime}-only format specifier for microseconds.
"""
self.flo.timeFormat = "%f"
self.assertEqual("600000", self.flo.formatTime(112345.6))
def test_loggingAnObjectWithBroken__str__(self) -> None:
# HELLO, MCFLY
self.lp.msg(EvilStr())
self.assertEqual(len(self.out), 1)
# Logging system shouldn't need to crap itself for this trivial case
self.assertNotIn(self.ERROR_UNFORMATTABLE_OBJECT, self.out[0])
def test_formattingAnObjectWithBroken__str__(self) -> None:
self.lp.msg(format="%(blat)s", blat=EvilStr())
self.assertEqual(len(self.out), 1)
self.assertIn(self.ERROR_INVALID_FORMAT, self.out[0])
def test_brokenSystem__str__(self) -> None:
self.lp.msg("huh", system=EvilStr())
self.assertEqual(len(self.out), 1)
self.assertIn(self.ERROR_FORMAT, self.out[0])
def test_formattingAnObjectWithBroken__repr__Indirect(self) -> None:
self.lp.msg(format="%(blat)s", blat=[EvilRepr()])
self.assertEqual(len(self.out), 1)
self.assertIn(self.ERROR_UNFORMATTABLE_OBJECT, self.out[0])
def test_systemWithBroker__repr__Indirect(self) -> None:
self.lp.msg("huh", system=[EvilRepr()])
self.assertEqual(len(self.out), 1)
self.assertIn(self.ERROR_UNFORMATTABLE_OBJECT, self.out[0])
def test_simpleBrokenFormat(self) -> None:
self.lp.msg(format="hooj %s %s", blat=1)
self.assertEqual(len(self.out), 1)
self.assertIn(self.ERROR_INVALID_FORMAT, self.out[0])
def test_ridiculousFormat(self) -> None:
self.lp.msg(format=42, blat=1)
self.assertEqual(len(self.out), 1)
self.assertIn(self.ERROR_INVALID_FORMAT, self.out[0])
def test_evilFormat__repr__And__str__(self) -> None:
self.lp.msg(format=EvilReprStr(), blat=1)
self.assertEqual(len(self.out), 1)
self.assertIn(self.ERROR_PATHOLOGICAL, self.out[0])
def test_strangeEventDict(self) -> None:
"""
This kind of eventDict used to fail silently, so test it does.
"""
self.lp.msg(message="", isError=False)
self.assertEqual(len(self.out), 0)
def _startLoggingCleanup(self) -> None:
"""
Cleanup after a startLogging() call that mutates the hell out of some
global state.
"""
self.addCleanup(log.theLogPublisher._stopLogging)
self.addCleanup(setattr, sys, "stdout", sys.stdout)
self.addCleanup(setattr, sys, "stderr", sys.stderr)
def test_printToStderrSetsIsError(self) -> None:
"""
startLogging()'s overridden sys.stderr should consider everything
written to it an error.
"""
self._startLoggingCleanup()
fakeFile = StringIO()
log.startLogging(fakeFile)
def observe(event: log.EventDict) -> None:
observed.append(event)
observed: list[log.EventDict] = []
log.addObserver(observe)
print("Hello, world.", file=sys.stderr)
self.assertEqual(observed[0]["isError"], 1)
def test_startLogging(self) -> None:
"""
startLogging() installs FileLogObserver and overrides sys.stdout and
sys.stderr.
"""
origStdout, origStderr = sys.stdout, sys.stderr
self._startLoggingCleanup()
# When done with test, reset stdout and stderr to current values:
fakeFile = StringIO()
observer = log.startLogging(fakeFile)
self.addCleanup(observer.stop)
log.msg("Hello!")
self.assertIn("Hello!", fakeFile.getvalue())
self.assertIsInstance(sys.stdout, LoggingFile)
self.assertEqual(sys.stdout.level, NewLogLevel.info) # type: ignore[attr-defined]
encoding = getattr(origStdout, "encoding", None)
if not encoding:
encoding = sys.getdefaultencoding()
self.assertEqual(sys.stdout.encoding.upper(), encoding.upper())
self.assertIsInstance(sys.stderr, LoggingFile)
self.assertEqual(sys.stderr.level, NewLogLevel.error) # type: ignore[attr-defined]
encoding = getattr(origStderr, "encoding", None)
if not encoding:
encoding = sys.getdefaultencoding()
self.assertEqual(sys.stderr.encoding.upper(), encoding.upper())
def test_startLoggingTwice(self) -> None:
"""
There are some obscure error conditions that can occur when logging is
started twice. See http://twistedmatrix.com/trac/ticket/3289 for more
information.
"""
self._startLoggingCleanup()
# The bug is particular to the way that the t.p.log 'global' function
# handle stdout. If we use our own stream, the error doesn't occur. If
# we use our own LogPublisher, the error doesn't occur.
sys.stdout = StringIO()
def showError(eventDict: log.EventDict) -> None:
if eventDict["isError"]:
sys.__stdout__.write(eventDict["failure"].getTraceback())
log.addObserver(showError)
self.addCleanup(log.removeObserver, showError)
observer = log.startLogging(sys.stdout)
self.addCleanup(observer.stop)
# At this point, we expect that sys.stdout is a StdioOnnaStick object.
self.assertIsInstance(sys.stdout, LoggingFile)
fakeStdout = sys.stdout
observer = log.startLogging(sys.stdout)
self.assertIs(sys.stdout, fakeStdout)
def test_startLoggingOverridesWarning(self) -> None:
"""
startLogging() overrides global C{warnings.showwarning} such that
warnings go to Twisted log observers.
"""
self._startLoggingCleanup()
newPublisher = NewLogPublisher()
class SysModule:
stdout = object()
stderr = object()
tempLogPublisher = LogPublisher(
newPublisher,
newPublisher,
logBeginner=LogBeginner(newPublisher, StringIO(), SysModule, warnings),
)
# Trial reports warnings in two ways. First, it intercepts the global
# 'showwarning' function *itself*, after starting logging (by way of
# the '_collectWarnings' function which collects all warnings as a
# around the test's 'run' method). Second, it has a log observer which
# immediately reports warnings when they're propagated into the log
# system (which, in normal operation, happens only at the end of the
# test case). In order to avoid printing a spurious warning in this
# test, we first replace the global log publisher's 'showwarning' in
# the module with our own.
self.patch(log, "theLogPublisher", tempLogPublisher)
# And, one last thing, pretend we're starting from a fresh import, or
# warnings.warn won't be patched at all.
log._oldshowwarning = None # type: ignore[attr-defined]
# Global mutable state is bad, kids. Stay in school.
fakeFile = StringIO()
# We didn't previously save log messages, so let's make sure we don't
# save them any more.
evt = {"pre-start": "event"}
received = []
@implementer(ILogObserver)
class PreStartObserver:
def __call__(self, eventDict: log.EventDict) -> None:
if "pre-start" in eventDict.keys():
# later we assert that received is empty so this is not covered
received.append(eventDict) # pragma: no cover
newPublisher(evt)
newPublisher.addObserver(PreStartObserver())
log.startLogging(fakeFile, setStdout=False)
self.addCleanup(tempLogPublisher._stopLogging)
self.assertEqual(received, [])
warnings.warn("hello!")
output = fakeFile.getvalue()
self.assertIn("UserWarning: hello!", output)
def test_emitPrefix(self) -> None:
"""
FileLogObserver.emit() will add a timestamp and system prefix to its
file output.
"""
output = StringIO()
flo = log.FileLogObserver(output)
events = []
def observer(event: log.EventDict) -> None:
# Capture the event for reference and pass it along to flo
events.append(event)
flo.emit(event)
publisher = log.LogPublisher()
publisher.addObserver(observer)
publisher.msg("Hello!")
self.assertEqual(len(events), 1)
event = events[0]
result = output.getvalue()
prefix = "{time} [{system}] ".format(
time=flo.formatTime(event["time"]),
system=event["system"],
)
self.assertTrue(
result.startswith(prefix),
f"{result!r} does not start with {prefix!r}",
)
def test_emitNewline(self) -> None:
"""
FileLogObserver.emit() will append a newline to its file output.
"""
output = StringIO()
flo = log.FileLogObserver(output)
publisher = log.LogPublisher()
publisher.addObserver(flo.emit)
publisher.msg("Hello!")
result = output.getvalue()
suffix = "Hello!\n"
self.assertTrue(
result.endswith(suffix),
f"{result!r} does not end with {suffix!r}",
)
class PythonLoggingObserverTests(unittest.SynchronousTestCase):
"""
Test the bridge with python logging module.
"""
def setUp(self) -> None:
rootLogger = logging.getLogger("")
originalLevel = rootLogger.getEffectiveLevel()
rootLogger.setLevel(logging.DEBUG)
@self.addCleanup
def restoreLevel() -> None:
rootLogger.setLevel(originalLevel)
self.hdlr, self.out = handlerAndBytesIO()
rootLogger.addHandler(self.hdlr)
@self.addCleanup
def removeLogger() -> None:
rootLogger.removeHandler(self.hdlr)
self.hdlr.close()
self.lp = log.LogPublisher()
self.obs = log.PythonLoggingObserver()
self.lp.addObserver(self.obs.emit)
def test_singleString(self) -> None:
"""
Test simple output, and default log level.
"""
self.lp.msg("Hello, world.")
self.assertIn(b"Hello, world.", self.out.getvalue())
self.assertIn(b"INFO", self.out.getvalue())
def test_errorString(self) -> None:
"""
Test error output.
"""
f = failure.Failure(ValueError("That is bad."))
self.lp.msg(failure=f, isError=True)
prefix = b"CRITICAL:"
output = self.out.getvalue()
self.assertTrue(
output.startswith(prefix),
f"Does not start with {prefix!r}: {output!r}",
)
def test_formatString(self) -> None:
"""
Test logging with a format.
"""
self.lp.msg(format="%(bar)s oo %(foo)s", bar="Hello", foo="world")
self.assertIn(b"Hello oo world", self.out.getvalue())
def test_customLevel(self) -> None:
"""
Test the logLevel keyword for customizing level used.
"""
self.lp.msg("Spam egg.", logLevel=logging.ERROR)
self.assertIn(b"Spam egg.", self.out.getvalue())
self.assertIn(b"ERROR", self.out.getvalue())
self.out.seek(0, 0)
self.out.truncate()
self.lp.msg("Foo bar.", logLevel=logging.WARNING)
self.assertIn(b"Foo bar.", self.out.getvalue())
self.assertIn(b"WARNING", self.out.getvalue())
def test_strangeEventDict(self) -> None:
"""
Verify that an event dictionary which is not an error and has an empty
message isn't recorded.
"""
self.lp.msg(message="", isError=False)
self.assertEqual(self.out.getvalue(), b"")
class PythonLoggingIntegrationTests(unittest.SynchronousTestCase):
"""
Test integration of python logging bridge.
"""
def test_startStopObserver(self) -> None:
"""
Test that start and stop methods of the observer actually register
and unregister to the log system.
"""
oldAddObserver = log.addObserver
oldRemoveObserver = log.removeObserver
l: list[Callable[[log.EventDict], None]] = []
try:
log.addObserver = l.append
log.removeObserver = l.remove
obs = log.PythonLoggingObserver()
obs.start()
self.assertEqual(l[0], obs.emit)
obs.stop()
self.assertEqual(len(l), 0)
finally:
log.addObserver = oldAddObserver
log.removeObserver = oldRemoveObserver
def test_inheritance(self) -> None:
"""
Test that we can inherit L{log.PythonLoggingObserver} and use super:
that's basically a validation that L{log.PythonLoggingObserver} is
new-style class.
"""
class MyObserver(log.PythonLoggingObserver):
def emit(self, eventDict: log.EventDict) -> None:
super().emit(eventDict)
obs = MyObserver()
l: list[log.EventDict] = []
oldEmit = log.PythonLoggingObserver.emit
try:
log.PythonLoggingObserver.emit = l.append # type: ignore[assignment, method-assign]
obs.emit({"foo": "bar"})
self.assertEqual(l, [{"foo": "bar"}])
finally:
log.PythonLoggingObserver.emit = oldEmit # type: ignore[method-assign]
class DefaultObserverTests(unittest.SynchronousTestCase):
"""
Test the default observer.
"""
def test_failureLogger(self) -> None:
"""
The reason argument passed to log.err() appears in the report
generated by DefaultObserver.
"""
self.catcher: list[log.EventDict] = []
self.observer = self.catcher.append
log.addObserver(self.observer)
self.addCleanup(log.removeObserver, self.observer)
obs = log.DefaultObserver()
obs.stderr = StringIO()
obs.start()
self.addCleanup(obs.stop)
reason = "The reason."
log.err(Exception(), reason)
errors = self.flushLoggedErrors()
self.assertIn(reason, obs.stderr.getvalue())
self.assertEqual(len(errors), 1)
def test_emitEventWithBrokenRepr(self) -> None:
"""
DefaultObserver.emit() does not raise when it observes an error event
with a message that causes L{repr} to raise.
"""
class Ouch:
def __repr__(self) -> str:
return str(1 / 0)
message = ("foo", Ouch())
event = dict(message=message, isError=1)
observer = log.DefaultObserver()
with StringIO() as output:
observer.stderr = output
observer.emit(event)
self.assertTrue(output.getvalue().startswith("foo <Ouch instance"))
class StdioOnnaStickTests(unittest.SynchronousTestCase):
"""
StdioOnnaStick should act like the normal sys.stdout object.
"""
def setUp(self) -> None:
self.resultLogs: list[log.EventDict] = []
log.addObserver(self.resultLogs.append)
def tearDown(self) -> None:
log.removeObserver(self.resultLogs.append)
def getLogMessages(self) -> list[str]:
return ["".join(d["message"]) for d in self.resultLogs]
def test_write(self) -> None:
"""
Writing to a StdioOnnaStick instance results in Twisted log messages.
Log messages are generated every time a '\\n' is encountered.
"""
stdio = log.StdioOnnaStick()
stdio.write("Hello there\nThis is a test")
self.assertEqual(self.getLogMessages(), ["Hello there"])
stdio.write("!\n")
self.assertEqual(self.getLogMessages(), ["Hello there", "This is a test!"])
def test_metadata(self) -> None:
"""
The log messages written by StdioOnnaStick have printed=1 keyword, and
by default are not errors.
"""
stdio = log.StdioOnnaStick()
stdio.write("hello\n")
self.assertFalse(self.resultLogs[0]["isError"])
self.assertTrue(self.resultLogs[0]["printed"])
def test_writeLines(self) -> None:
"""
Writing lines to a StdioOnnaStick results in Twisted log messages.
"""
stdio = log.StdioOnnaStick()
stdio.writelines(["log 1", "log 2"])
self.assertEqual(self.getLogMessages(), ["log 1", "log 2"])
def test_print(self) -> None:
"""
When StdioOnnaStick is set as sys.stdout, prints become log messages.
"""
oldStdout = sys.stdout
sys.stdout = log.StdioOnnaStick() # type: ignore[assignment]
self.addCleanup(setattr, sys, "stdout", oldStdout)
print("This", end=" ")
print("is a test")
self.assertEqual(self.getLogMessages(), ["This is a test"])
def test_error(self) -> None:
"""
StdioOnnaStick created with isError=True log messages as errors.
"""
stdio = log.StdioOnnaStick(isError=True)
stdio.write("log 1\n")
self.assertTrue(self.resultLogs[0]["isError"])
def test_unicode(self) -> None:
"""
StdioOnnaStick converts unicode prints to byte strings on Python 2, in
order to be compatible with the normal stdout/stderr objects.
On Python 3, the prints are left unmodified.
"""
unicodeString = "Hello, \N{VULGAR FRACTION ONE HALF} world."
stdio = log.StdioOnnaStick(encoding="utf-8")
self.assertEqual(stdio.encoding, "utf-8")
stdio.write(unicodeString + "\n")
stdio.writelines(["Also, " + unicodeString])
oldStdout = sys.stdout
sys.stdout = stdio # type: ignore[assignment]
self.addCleanup(setattr, sys, "stdout", oldStdout)
# This should go to the log, utf-8 encoded too:
print(unicodeString)
self.assertEqual(
self.getLogMessages(),
[unicodeString, "Also, " + unicodeString, unicodeString],
)
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