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# Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Test cases for L{twisted.logger._format}. """ from typing import AnyStr, Optional, cast try: from time import tzset # We should upgrade to a version of pyflakes that does not require this. tzset except ImportError: tzset = None # type: ignore[assignment] from twisted.python.failure import Failure from twisted.python.test.test_tzhelper import addTZCleanup, mktime, setTZ from twisted.trial import unittest from twisted.trial.unittest import SkipTest from .._format import ( eventAsText, formatEvent, formatEventAsClassicLogText, formatTime, formatUnformattableEvent, formatWithCall, ) from .._interfaces import LogEvent from .._levels import LogLevel class FormattingTests(unittest.TestCase): """ Tests for basic event formatting functions. """ def test_formatEvent(self) -> None: """ L{formatEvent} will format an event according to several rules: - A string with no formatting instructions will be passed straight through. - PEP 3101 strings will be formatted using the keys and values of the event as named fields. - PEP 3101 keys ending with C{()} will be treated as instructions to call that key (which ought to be a callable) before formatting. L{formatEvent} will always return L{str}, and if given bytes, will always treat its format string as UTF-8 encoded. """ def format(logFormat: AnyStr, **event: object) -> str: event["log_format"] = logFormat result = formatEvent(event) self.assertIs(type(result), str) return result self.assertEqual("", format(b"")) self.assertEqual("", format("")) self.assertEqual("abc", format("{x}", x="abc")) self.assertEqual( "no, yes.", format("{not_called}, {called()}.", not_called="no", called=lambda: "yes"), ) self.assertEqual("S\xe1nchez", format(b"S\xc3\xa1nchez")) self.assertIn("Unable to format event", format(b"S\xe1nchez")) maybeResult = format(b"S{a!s}nchez", a=b"\xe1") self.assertIn("Sb'\\xe1'nchez", maybeResult) xe1 = str(repr(b"\xe1")) self.assertIn("S" + xe1 + "nchez", format(b"S{a!r}nchez", a=b"\xe1")) def test_formatEventNoFormat(self) -> None: """ Formatting an event with no format. """ event = dict(foo=1, bar=2) result = formatEvent(event) self.assertEqual("", result) def test_formatEventWeirdFormat(self) -> None: """ Formatting an event with a bogus format. """ event = dict(log_format=object(), foo=1, bar=2) result = formatEvent(event) self.assertIn("Log format must be str", result) self.assertIn(repr(event), result) def test_formatUnformattableEvent(self) -> None: """ Formatting an event that's just plain out to get us. """ event = dict(log_format="{evil()}", evil=lambda: 1 / 0) result = formatEvent(event) self.assertIn("Unable to format event", result) self.assertIn(repr(event), result) def test_formatUnformattableEventWithUnformattableKey(self) -> None: """ Formatting an unformattable event that has an unformattable key. """ event: LogEvent = { "log_format": "{evil()}", "evil": lambda: 1 / 0, cast(str, Unformattable()): "gurk", } result = formatEvent(event) self.assertIn("MESSAGE LOST: unformattable object logged:", result) self.assertIn("Recoverable data:", result) self.assertIn("Exception during formatting:", result) def test_formatUnformattableEventWithUnformattableValue(self) -> None: """ Formatting an unformattable event that has an unformattable value. """ event = dict( log_format="{evil()}", evil=lambda: 1 / 0, gurk=Unformattable(), ) result = formatEvent(event) self.assertIn("MESSAGE LOST: unformattable object logged:", result) self.assertIn("Recoverable data:", result) self.assertIn("Exception during formatting:", result) def test_formatUnformattableEventWithUnformattableErrorOMGWillItStop(self) -> None: """ Formatting an unformattable event that has an unformattable value. """ event = dict( log_format="{evil()}", evil=lambda: 1 / 0, recoverable="okay", ) # Call formatUnformattableEvent() directly with a bogus exception. result = formatUnformattableEvent(event, cast(BaseException, Unformattable())) self.assertIn("MESSAGE LOST: unformattable object logged:", result) self.assertIn(repr("recoverable") + " = " + repr("okay"), result) class TimeFormattingTests(unittest.TestCase): """ Tests for time formatting functions. """ def setUp(self) -> None: addTZCleanup(self) def test_formatTimeWithDefaultFormat(self) -> None: """ Default time stamp format is RFC 3339 and offset respects the timezone as set by the standard C{TZ} environment variable and L{tzset} API. """ if tzset is None: raise SkipTest("Platform cannot change timezone; unable to verify offsets.") def testForTimeZone(name: str, expectedDST: str, expectedSTD: str) -> None: setTZ(name) localDST = mktime((2006, 6, 30, 0, 0, 0, 4, 181, 1)) localSTD = mktime((2007, 1, 31, 0, 0, 0, 2, 31, 0)) self.assertEqual(formatTime(localDST), expectedDST) self.assertEqual(formatTime(localSTD), expectedSTD) # UTC testForTimeZone( "UTC+00", "2006-06-30T00:00:00+0000", "2007-01-31T00:00:00+0000", ) # West of UTC testForTimeZone( "EST+05EDT,M4.1.0,M10.5.0", "2006-06-30T00:00:00-0400", "2007-01-31T00:00:00-0500", ) # East of UTC testForTimeZone( "CEST-01CEDT,M4.1.0,M10.5.0", "2006-06-30T00:00:00+0200", "2007-01-31T00:00:00+0100", ) # No DST testForTimeZone( "CST+06", "2006-06-30T00:00:00-0600", "2007-01-31T00:00:00-0600", ) def test_formatTimeWithNoTime(self) -> None: """ If C{when} argument is L{None}, we get the default output. """ self.assertEqual(formatTime(None), "-") self.assertEqual(formatTime(None, default="!"), "!") def test_formatTimeWithNoFormat(self) -> None: """ If C{timeFormat} argument is L{None}, we get the default output. """ t = mktime((2013, 9, 24, 11, 40, 47, 1, 267, 1)) self.assertEqual(formatTime(t, timeFormat=None), "-") self.assertEqual(formatTime(t, timeFormat=None, default="!"), "!") def test_formatTimeWithAlternateTimeFormat(self) -> None: """ Alternate time format in output. """ t = mktime((2013, 9, 24, 11, 40, 47, 1, 267, 1)) self.assertEqual(formatTime(t, timeFormat="%Y/%W"), "2013/38") def test_formatTimePercentF(self) -> None: """ "%f" supported in time format. """ self.assertEqual(formatTime(1000000.23456, timeFormat="%f"), "234560") class ClassicLogFormattingTests(unittest.TestCase): """ Tests for classic text log event formatting functions. """ def test_formatTimeDefault(self) -> None: """ Time is first field. Default time stamp format is RFC 3339 and offset respects the timezone as set by the standard C{TZ} environment variable and L{tzset} API. """ if tzset is None: raise SkipTest("Platform cannot change timezone; unable to verify offsets.") addTZCleanup(self) setTZ("UTC+00") t = mktime((2013, 9, 24, 11, 40, 47, 1, 267, 1)) event = dict(log_format="XYZZY", log_time=t) self.assertEqual( formatEventAsClassicLogText(event), "2013-09-24T11:40:47+0000 [-\x23-] XYZZY\n", ) def test_formatTimeCustom(self) -> None: """ Time is first field. Custom formatting function is an optional argument. """ def formatTime(t: Optional[float]) -> str: return f"__{t}__" event = dict(log_format="XYZZY", log_time=12345) self.assertEqual( formatEventAsClassicLogText(event, formatTime=formatTime), "__12345__ [-\x23-] XYZZY\n", ) def test_formatNamespace(self) -> None: """ Namespace is first part of second field. """ event = dict(log_format="XYZZY", log_namespace="my.namespace") self.assertEqual( formatEventAsClassicLogText(event), "- [my.namespace\x23-] XYZZY\n", ) def test_formatLevel(self) -> None: """ Level is second part of second field. """ event = dict(log_format="XYZZY", log_level=LogLevel.warn) self.assertEqual( formatEventAsClassicLogText(event), "- [-\x23warn] XYZZY\n", ) def test_formatSystem(self) -> None: """ System is second field. """ event = dict(log_format="XYZZY", log_system="S.Y.S.T.E.M.") self.assertEqual( formatEventAsClassicLogText(event), "- [S.Y.S.T.E.M.] XYZZY\n", ) def test_formatSystemRulz(self) -> None: """ System is not supplanted by namespace and level. """ event = dict( log_format="XYZZY", log_namespace="my.namespace", log_level=LogLevel.warn, log_system="S.Y.S.T.E.M.", ) self.assertEqual( formatEventAsClassicLogText(event), "- [S.Y.S.T.E.M.] XYZZY\n", ) def test_formatSystemUnformattable(self) -> None: """ System is not supplanted by namespace and level. """ event = dict(log_format="XYZZY", log_system=Unformattable()) self.assertEqual( formatEventAsClassicLogText(event), "- [UNFORMATTABLE] XYZZY\n", ) def test_formatFormat(self) -> None: """ Formatted event is last field. """ event = dict(log_format="id:{id}", id="123") self.assertEqual( formatEventAsClassicLogText(event), "- [-\x23-] id:123\n", ) def test_formatNoFormat(self) -> None: """ No format string. """ event = dict(id="123") self.assertIs(formatEventAsClassicLogText(event), None) def test_formatEmptyFormat(self) -> None: """ Empty format string. """ event = dict(log_format="", id="123") self.assertIs(formatEventAsClassicLogText(event), None) def test_formatFormatMultiLine(self) -> None: """ If the formatted event has newlines, indent additional lines. """ event = dict(log_format='XYZZY\nA hollow voice says:\n"Plugh"') self.assertEqual( formatEventAsClassicLogText(event), '- [-\x23-] XYZZY\n\tA hollow voice says:\n\t"Plugh"\n', ) class FormatFieldTests(unittest.TestCase): """ Tests for format field functions. """ def test_formatWithCall(self) -> None: """ L{formatWithCall} is an extended version of L{str.format} that will interpret a set of parentheses "C{()}" at the end of a format key to mean that the format key ought to be I{called} rather than stringified. """ self.assertEqual( formatWithCall( "Hello, {world}. {callme()}.", dict(world="earth", callme=lambda: "maybe"), ), "Hello, earth. maybe.", ) self.assertEqual( formatWithCall("Hello, {repr()!r}.", dict(repr=lambda: "repr")), "Hello, 'repr'.", ) class Unformattable: """ An object that raises an exception from C{__repr__}. """ def __repr__(self) -> str: return str(1 / 0) class CapturedError(Exception): """ A captured error for use in format tests. """ class EventAsTextTests(unittest.TestCase): """ Tests for L{eventAsText}, all of which ensure that the returned type is UTF-8 decoded text. """ def test_eventWithTraceback(self) -> None: """ An event with a C{log_failure} key will have a traceback appended. """ try: raise CapturedError("This is a fake error") except CapturedError: f = Failure() event: LogEvent = {"log_format": "This is a test log message"} event["log_failure"] = f eventText = eventAsText(event, includeTimestamp=True, includeSystem=False) self.assertIn(str(f.getTraceback()), eventText) self.assertIn("This is a test log message", eventText) def test_formatEmptyEventWithTraceback(self) -> None: """ An event with an empty C{log_format} key appends a traceback from the accompanying failure. """ try: raise CapturedError("This is a fake error") except CapturedError: f = Failure() event: LogEvent = {"log_format": ""} event["log_failure"] = f eventText = eventAsText(event, includeTimestamp=True, includeSystem=False) self.assertIn(str(f.getTraceback()), eventText) self.assertIn("This is a fake error", eventText) def test_formatUnformattableWithTraceback(self) -> None: """ An event with an unformattable value in the C{log_format} key still has a traceback appended. """ try: raise CapturedError("This is a fake error") except CapturedError: f = Failure() event = { "log_format": "{evil()}", "evil": lambda: 1 / 0, } event["log_failure"] = f eventText = eventAsText(event, includeTimestamp=True, includeSystem=False) self.assertIsInstance(eventText, str) self.assertIn(str(f.getTraceback()), eventText) self.assertIn("This is a fake error", eventText) def test_formatUnformattableErrorWithTraceback(self) -> None: """ An event with an unformattable value in the C{log_format} key, that throws an exception when __repr__ is invoked still has a traceback appended. """ try: raise CapturedError("This is a fake error") except CapturedError: f = Failure() event: LogEvent = { "log_format": "{evil()}", "evil": lambda: 1 / 0, cast(str, Unformattable()): "gurk", } event["log_failure"] = f eventText = eventAsText(event, includeTimestamp=True, includeSystem=False) self.assertIsInstance(eventText, str) self.assertIn("MESSAGE LOST", eventText) self.assertIn(str(f.getTraceback()), eventText) self.assertIn("This is a fake error", eventText) def test_formatEventUnformattableTraceback(self) -> None: """ If a traceback cannot be appended, a message indicating this is true is appended. """ event: LogEvent = {"log_format": ""} event["log_failure"] = object() eventText = eventAsText(event, includeTimestamp=True, includeSystem=False) self.assertIsInstance(eventText, str) self.assertIn("(UNABLE TO OBTAIN TRACEBACK FROM EVENT)", eventText) def test_formatEventNonCritical(self) -> None: """ An event with no C{log_failure} key will not have a traceback appended. """ event: LogEvent = {"log_format": "This is a test log message"} eventText = eventAsText(event, includeTimestamp=True, includeSystem=False) self.assertIsInstance(eventText, str) self.assertIn("This is a test log message", eventText) def test_formatTracebackMultibyte(self) -> None: """ An exception message with multibyte characters is properly handled. """ try: raise CapturedError("€") except CapturedError: f = Failure() event: LogEvent = {"log_format": "This is a test log message"} event["log_failure"] = f eventText = eventAsText(event, includeTimestamp=True, includeSystem=False) self.assertIn("€", eventText) self.assertIn("Traceback", eventText) def test_formatTracebackHandlesUTF8DecodeFailure(self) -> None: """ An error raised attempting to decode the UTF still produces a valid log message. """ try: # 'test' in utf-16 raise CapturedError(b"\xff\xfet\x00e\x00s\x00t\x00") except CapturedError: f = Failure() event: LogEvent = {"log_format": "This is a test log message"} event["log_failure"] = f eventText = eventAsText(event, includeTimestamp=True, includeSystem=False) self.assertIn("Traceback", eventText) self.assertIn(r'CapturedError(b"\xff\xfet\x00e\x00s\x00t\x00")', eventText) def test_eventAsTextSystemOnly(self) -> None: """ If includeSystem is specified as the only option no timestamp or traceback are printed. """ try: raise CapturedError("This is a fake error") except CapturedError: f = Failure() t = mktime((2013, 9, 24, 11, 40, 47, 1, 267, 1)) event: LogEvent = { "log_format": "ABCD", "log_system": "fake_system", "log_time": t, } event["log_failure"] = f eventText = eventAsText( event, includeTimestamp=False, includeTraceback=False, includeSystem=True, ) self.assertEqual( eventText, "[fake_system] ABCD", ) def test_eventAsTextTimestampOnly(self) -> None: """ If includeTimestamp is specified as the only option no system or traceback are printed. """ if tzset is None: raise SkipTest("Platform cannot change timezone; unable to verify offsets.") addTZCleanup(self) setTZ("UTC+00") try: raise CapturedError("This is a fake error") except CapturedError: f = Failure() t = mktime((2013, 9, 24, 11, 40, 47, 1, 267, 1)) event: LogEvent = { "log_format": "ABCD", "log_system": "fake_system", "log_time": t, } event["log_failure"] = f eventText = eventAsText( event, includeTimestamp=True, includeTraceback=False, includeSystem=False, ) self.assertEqual( eventText, "2013-09-24T11:40:47+0000 ABCD", ) def test_eventAsTextSystemMissing(self) -> None: """ If includeSystem is specified with a missing system [-#-] is used. """ try: raise CapturedError("This is a fake error") except CapturedError: f = Failure() t = mktime((2013, 9, 24, 11, 40, 47, 1, 267, 1)) event: LogEvent = { "log_format": "ABCD", "log_time": t, } event["log_failure"] = f eventText = eventAsText( event, includeTimestamp=False, includeTraceback=False, includeSystem=True, ) self.assertEqual( eventText, "[-\x23-] ABCD", ) def test_eventAsTextSystemMissingNamespaceAndLevel(self) -> None: """ If includeSystem is specified with a missing system but namespace and level are present they are used. """ try: raise CapturedError("This is a fake error") except CapturedError: f = Failure() t = mktime((2013, 9, 24, 11, 40, 47, 1, 267, 1)) event: LogEvent = { "log_format": "ABCD", "log_time": t, "log_level": LogLevel.info, "log_namespace": "test", } event["log_failure"] = f eventText = eventAsText( event, includeTimestamp=False, includeTraceback=False, includeSystem=True, ) self.assertEqual( eventText, "[test\x23info] ABCD", ) def test_eventAsTextSystemMissingLevelOnly(self) -> None: """ If includeSystem is specified with a missing system but level is present, level is included. """ try: raise CapturedError("This is a fake error") except CapturedError: f = Failure() t = mktime((2013, 9, 24, 11, 40, 47, 1, 267, 1)) event: LogEvent = { "log_format": "ABCD", "log_time": t, "log_level": LogLevel.info, } event["log_failure"] = f eventText = eventAsText( event, includeTimestamp=False, includeTraceback=False, includeSystem=True, ) self.assertEqual( eventText, "[-\x23info] ABCD", )