# -*- test-case-name: twisted.logger.test.test_stdlib -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Integration with Python standard library logging. """ import logging as stdlibLogging from zope.interface import implementer from twisted.python.compat import _PY3, currentframe, unicode from ._levels import LogLevel from ._format import formatEvent from ._observer import ILogObserver # Mappings to Python's logging module toStdlibLogLevelMapping = { LogLevel.debug: stdlibLogging.DEBUG, LogLevel.info: stdlibLogging.INFO, LogLevel.warn: stdlibLogging.WARNING, LogLevel.error: stdlibLogging.ERROR, LogLevel.critical: stdlibLogging.CRITICAL, } def _reverseLogLevelMapping(): """ Reverse the above mapping, adding both the numerical keys used above and the corresponding string keys also used by python logging. @return: the reversed mapping """ mapping = {} for logLevel, pyLogLevel in toStdlibLogLevelMapping.items(): mapping[pyLogLevel] = logLevel mapping[stdlibLogging.getLevelName(pyLogLevel)] = logLevel return mapping fromStdlibLogLevelMapping = _reverseLogLevelMapping() @implementer(ILogObserver) class STDLibLogObserver(object): """ Log observer that writes to the python standard library's C{logging} module. @note: Warning: specific logging configurations (example: network) can lead to this observer blocking. Nothing is done here to prevent that, so be sure to not to configure the standard library logging module to block when used in conjunction with this module: code within Twisted, such as twisted.web, assumes that logging does not block. @cvar defaultStackDepth: This is the default number of frames that it takes to get from L{STDLibLogObserver} through the logging module, plus one; in other words, the number of frames if you were to call a L{STDLibLogObserver} directly. This is useful to use as an offset for the C{stackDepth} parameter to C{__init__}, to add frames for other publishers. """ defaultStackDepth = 4 def __init__(self, name="twisted", stackDepth=defaultStackDepth): """ @param loggerName: logger identifier. @type loggerName: C{str} @param stackDepth: The depth of the stack to investigate for caller metadata. @type stackDepth: L{int} """ self.logger = stdlibLogging.getLogger(name) self.logger.findCaller = self._findCaller self.stackDepth = stackDepth def _findCaller(self, stackInfo=False, stackLevel=1): """ Based on the stack depth passed to this L{STDLibLogObserver}, identify the calling function. @param stackInfo: Whether or not to construct stack information. (Currently ignored.) @type stackInfo: L{bool} @param stackLevel: The number of stack frames to skip when determining the caller (currently ignored; use stackDepth on the instance). @type stackLevel: L{int} @return: Depending on Python version, either a 3-tuple of (filename, lineno, name) or a 4-tuple of that plus stack information. @rtype: L{tuple} """ f = currentframe(self.stackDepth) co = f.f_code if _PY3: extra = (None,) else: extra = () return (co.co_filename, f.f_lineno, co.co_name) + extra def __call__(self, event): """ Format an event and bridge it to Python logging. """ level = event.get("log_level", LogLevel.info) failure = event.get('log_failure') if failure is None: excInfo = None else: excInfo = ( failure.type, failure.value, failure.getTracebackObject()) stdlibLevel = toStdlibLogLevelMapping.get(level, stdlibLogging.INFO) self.logger.log( stdlibLevel, StringifiableFromEvent(event), exc_info=excInfo) class StringifiableFromEvent(object): """ An object that implements C{__str__()} in order to defer the work of formatting until it's converted into a C{str}. """ def __init__(self, event): """ @param event: An event. @type event: L{dict} """ self.event = event def __unicode__(self): return formatEvent(self.event) def __bytes__(self): return unicode(self).encode("utf-8") if _PY3: __str__ = __unicode__ else: __str__ = __bytes__